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 /*
- * Copyright (c) 2000 Apple Computer, Inc. All rights reserved.
- *
- * @APPLE_LICENSE_HEADER_START@
- * 
- * The contents of this file constitute Original Code as defined in and
- * are subject to the Apple Public Source License Version 1.1 (the
- * "License").  You may not use this file except in compliance with the
- * License.  Please obtain a copy of the License at
- * http://www.apple.com/publicsource and read it before using this file.
- * 
- * This Original Code and all software distributed under the License are
- * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * Copyright (c) 2000-2015 Apple Inc. All rights reserved.
+ *
+ * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
+ *
+ * This file contains Original Code and/or Modifications of Original Code
+ * as defined in and that are subject to the Apple Public Source License
+ * Version 2.0 (the 'License'). You may not use this file except in
+ * compliance with the License. The rights granted to you under the License
+ * may not be used to create, or enable the creation or redistribution of,
+ * unlawful or unlicensed copies of an Apple operating system, or to
+ * circumvent, violate, or enable the circumvention or violation of, any
+ * terms of an Apple operating system software license agreement.
+ *
+ * Please obtain a copy of the License at
+ * http://www.opensource.apple.com/apsl/ and read it before using this file.
+ *
+ * The Original Code and all software distributed under the License are
+ * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
  * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT.  Please see the
- * License for the specific language governing rights and limitations
- * under the License.
- * 
- * @APPLE_LICENSE_HEADER_END@
- */
-/*
- * Copyright (c) 2000 Apple Computer, Inc.  All rights reserved.
+ * 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.
  *
- * HISTORY
- *
- * 15 October 2000 (debo)
- *  Created.
+ * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
  */
 
+#include <mach/mach_types.h>
+#include <mach/thread_act_server.h>
+
+#include <kern/kern_types.h>
+#include <kern/processor.h>
 #include <kern/thread.h>
+#include <kern/affinity.h>
+#include <mach/task_policy.h>
+#include <kern/sfi.h>
+#include <kern/policy_internal.h>
+#include <sys/errno.h>
+#include <sys/ulock.h>
+
+#include <mach/machine/sdt.h>
+
+#ifdef MACH_BSD
+extern int      proc_selfpid(void);
+extern char *   proc_name_address(void *p);
+extern void     rethrottle_thread(void * uthread);
+#endif /* MACH_BSD */
+
+#define QOS_EXTRACT(q)        ((q) & 0xff)
+
+uint32_t qos_override_mode;
+#define QOS_OVERRIDE_MODE_OVERHANG_PEAK 0
+#define QOS_OVERRIDE_MODE_IGNORE_OVERRIDE 1
+#define QOS_OVERRIDE_MODE_FINE_GRAINED_OVERRIDE 2
+#define QOS_OVERRIDE_MODE_FINE_GRAINED_OVERRIDE_BUT_SINGLE_MUTEX_OVERRIDE 3
+
+extern zone_t thread_qos_override_zone;
 
 static void
-thread_recompute_priority(
-       thread_t                thread);
+proc_thread_qos_remove_override_internal(thread_t thread, user_addr_t resource, int resource_type, boolean_t reset);
+
+/*
+ * THREAD_QOS_UNSPECIFIED is assigned the highest tier available, so it does not provide a limit
+ * to threads that don't have a QoS class set.
+ */
+const qos_policy_params_t thread_qos_policy_params = {
+       /*
+        * This table defines the starting base priority of the thread,
+        * which will be modified by the thread importance and the task max priority
+        * before being applied.
+        */
+       .qos_pri[THREAD_QOS_UNSPECIFIED]                = 0, /* not consulted */
+       .qos_pri[THREAD_QOS_USER_INTERACTIVE]           = BASEPRI_BACKGROUND, /* i.e. 46 */
+       .qos_pri[THREAD_QOS_USER_INITIATED]             = BASEPRI_USER_INITIATED,
+       .qos_pri[THREAD_QOS_LEGACY]                     = BASEPRI_DEFAULT,
+       .qos_pri[THREAD_QOS_UTILITY]                    = BASEPRI_UTILITY,
+       .qos_pri[THREAD_QOS_BACKGROUND]                 = MAXPRI_THROTTLE,
+       .qos_pri[THREAD_QOS_MAINTENANCE]                = MAXPRI_THROTTLE,
+
+       /*
+        * This table defines the highest IO priority that a thread marked with this
+        * QoS class can have.
+        */
+       .qos_iotier[THREAD_QOS_UNSPECIFIED]             = THROTTLE_LEVEL_TIER0,
+       .qos_iotier[THREAD_QOS_USER_INTERACTIVE]        = THROTTLE_LEVEL_TIER0,
+       .qos_iotier[THREAD_QOS_USER_INITIATED]          = THROTTLE_LEVEL_TIER0,
+       .qos_iotier[THREAD_QOS_LEGACY]                  = THROTTLE_LEVEL_TIER0,
+       .qos_iotier[THREAD_QOS_UTILITY]                 = THROTTLE_LEVEL_TIER1,
+       .qos_iotier[THREAD_QOS_BACKGROUND]              = THROTTLE_LEVEL_TIER2, /* possibly overridden by bg_iotier */
+       .qos_iotier[THREAD_QOS_MAINTENANCE]             = THROTTLE_LEVEL_TIER3,
+
+       /*
+        * This table defines the highest QoS level that
+        * a thread marked with this QoS class can have.
+        */
+
+       .qos_through_qos[THREAD_QOS_UNSPECIFIED]        = QOS_EXTRACT(THROUGHPUT_QOS_TIER_UNSPECIFIED),
+       .qos_through_qos[THREAD_QOS_USER_INTERACTIVE]   = QOS_EXTRACT(THROUGHPUT_QOS_TIER_0),
+       .qos_through_qos[THREAD_QOS_USER_INITIATED]     = QOS_EXTRACT(THROUGHPUT_QOS_TIER_1),
+       .qos_through_qos[THREAD_QOS_LEGACY]             = QOS_EXTRACT(THROUGHPUT_QOS_TIER_1),
+       .qos_through_qos[THREAD_QOS_UTILITY]            = QOS_EXTRACT(THROUGHPUT_QOS_TIER_2),
+       .qos_through_qos[THREAD_QOS_BACKGROUND]         = QOS_EXTRACT(THROUGHPUT_QOS_TIER_5),
+       .qos_through_qos[THREAD_QOS_MAINTENANCE]        = QOS_EXTRACT(THROUGHPUT_QOS_TIER_5),
+
+       .qos_latency_qos[THREAD_QOS_UNSPECIFIED]        = QOS_EXTRACT(LATENCY_QOS_TIER_UNSPECIFIED),
+       .qos_latency_qos[THREAD_QOS_USER_INTERACTIVE]   = QOS_EXTRACT(LATENCY_QOS_TIER_0),
+       .qos_latency_qos[THREAD_QOS_USER_INITIATED]     = QOS_EXTRACT(LATENCY_QOS_TIER_1),
+       .qos_latency_qos[THREAD_QOS_LEGACY]             = QOS_EXTRACT(LATENCY_QOS_TIER_1),
+       .qos_latency_qos[THREAD_QOS_UTILITY]            = QOS_EXTRACT(LATENCY_QOS_TIER_3),
+       .qos_latency_qos[THREAD_QOS_BACKGROUND]         = QOS_EXTRACT(LATENCY_QOS_TIER_3),
+       .qos_latency_qos[THREAD_QOS_MAINTENANCE]        = QOS_EXTRACT(LATENCY_QOS_TIER_3),
+};
+
+static void
+thread_set_user_sched_mode_and_recompute_pri(thread_t thread, sched_mode_t mode);
+
+static int
+thread_qos_scaled_relative_priority(int qos, int qos_relprio);
+
+static void
+proc_get_thread_policy_bitfield(thread_t thread, thread_policy_state_t info);
+
+static void
+proc_set_thread_policy_locked(thread_t thread, int category, int flavor, int value, int value2, task_pend_token_t pend_token);
+
+static void
+proc_set_thread_policy_spinlocked(thread_t thread, int category, int flavor, int value, int value2, task_pend_token_t pend_token);
+
+static void
+thread_set_requested_policy_spinlocked(thread_t thread, int category, int flavor, int value, int value2, task_pend_token_t pend_token);
+
+static int
+thread_get_requested_policy_spinlocked(thread_t thread, int category, int flavor, int* value2);
+
+static int
+proc_get_thread_policy_locked(thread_t thread, int category, int flavor, int* value2);
+
+static void
+thread_policy_update_spinlocked(thread_t thread, boolean_t recompute_priority, task_pend_token_t pend_token);
+
+static void
+thread_policy_update_internal_spinlocked(thread_t thread, boolean_t recompute_priority, task_pend_token_t pend_token);
+
+void
+thread_policy_init(void)
+{
+       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;
+       }
+}
+
+boolean_t
+thread_has_qos_policy(thread_t thread)
+{
+       return (proc_get_thread_policy(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS) != THREAD_QOS_UNSPECIFIED) ? TRUE : FALSE;
+}
+
+
+static void
+thread_remove_qos_policy_locked(thread_t thread,
+    task_pend_token_t pend_token)
+{
+       __unused int prev_qos = thread->requested_policy.thrp_qos;
+
+       DTRACE_PROC2(qos__remove, thread_t, thread, int, prev_qos);
+
+       proc_set_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS_AND_RELPRIO,
+           THREAD_QOS_UNSPECIFIED, 0, pend_token);
+}
+
+kern_return_t
+thread_remove_qos_policy(thread_t thread)
+{
+       struct task_pend_token pend_token = {};
+
+       thread_mtx_lock(thread);
+       if (!thread->active) {
+               thread_mtx_unlock(thread);
+               return KERN_TERMINATED;
+       }
+
+       thread_remove_qos_policy_locked(thread, &pend_token);
+
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       return KERN_SUCCESS;
+}
+
+
+boolean_t
+thread_is_static_param(thread_t thread)
+{
+       if (thread->static_param) {
+               DTRACE_PROC1(qos__legacy__denied, thread_t, thread);
+               return TRUE;
+       }
+       return FALSE;
+}
+
+/*
+ * Relative priorities can range between 0REL and -15REL. These
+ * map to QoS-specific ranges, to create non-overlapping priority
+ * ranges.
+ */
+static int
+thread_qos_scaled_relative_priority(int qos, int qos_relprio)
+{
+       int next_lower_qos;
+
+       /* Fast path, since no validation or scaling is needed */
+       if (qos_relprio == 0) {
+               return 0;
+       }
+
+       switch (qos) {
+       case THREAD_QOS_USER_INTERACTIVE:
+               next_lower_qos = THREAD_QOS_USER_INITIATED;
+               break;
+       case THREAD_QOS_USER_INITIATED:
+               next_lower_qos = THREAD_QOS_LEGACY;
+               break;
+       case THREAD_QOS_LEGACY:
+               next_lower_qos = THREAD_QOS_UTILITY;
+               break;
+       case THREAD_QOS_UTILITY:
+               next_lower_qos = THREAD_QOS_BACKGROUND;
+               break;
+       case THREAD_QOS_MAINTENANCE:
+       case THREAD_QOS_BACKGROUND:
+               next_lower_qos = 0;
+               break;
+       default:
+               panic("Unrecognized QoS %d", qos);
+               return 0;
+       }
+
+       int prio_range_max = thread_qos_policy_params.qos_pri[qos];
+       int prio_range_min = next_lower_qos ? thread_qos_policy_params.qos_pri[next_lower_qos] : 0;
+
+       /*
+        * We now have the valid range that the scaled relative priority can map to. Note
+        * that the lower bound is exclusive, but the upper bound is inclusive. If the
+        * range is (21,31], 0REL should map to 31 and -15REL should map to 22. We use the
+        * fact that the max relative priority is -15 and use ">>4" to divide by 16 and discard
+        * remainder.
+        */
+       int scaled_relprio = -(((prio_range_max - prio_range_min) * (-qos_relprio)) >> 4);
+
+       return scaled_relprio;
+}
+
+/*
+ * flag set by -qos-policy-allow boot-arg to allow
+ * testing thread qos policy from userspace
+ */
+boolean_t allow_qos_policy_set = FALSE;
 
 kern_return_t
 thread_policy_set(
-       thread_act_t                    act,
-       thread_policy_flavor_t  flavor,
-       thread_policy_t                 policy_info,
-       mach_msg_type_number_t  count)
+       thread_t                                thread,
+       thread_policy_flavor_t  flavor,
+       thread_policy_t                 policy_info,
+       mach_msg_type_number_t  count)
 {
-       kern_return_t                   result = KERN_SUCCESS;
-       thread_t                                thread;
-       spl_t                                   s;
+       thread_qos_policy_data_t req_qos;
+       kern_return_t kr;
+
+       req_qos.qos_tier = THREAD_QOS_UNSPECIFIED;
+
+       if (thread == THREAD_NULL) {
+               return KERN_INVALID_ARGUMENT;
+       }
 
-       if (act == THR_ACT_NULL)
-               return (KERN_INVALID_ARGUMENT);
+       if (allow_qos_policy_set == FALSE) {
+               if (thread_is_static_param(thread)) {
+                       return KERN_POLICY_STATIC;
+               }
+
+               if (flavor == THREAD_QOS_POLICY) {
+                       return KERN_INVALID_ARGUMENT;
+               }
+       }
 
-       thread = act_lock_thread(act);
-       if (!act->active) {
-               act_unlock_thread(act);
+       /* Threads without static_param set reset their QoS when other policies are applied. */
+       if (thread->requested_policy.thrp_qos != THREAD_QOS_UNSPECIFIED) {
+               /* Store the existing tier, if we fail this call it is used to reset back. */
+               req_qos.qos_tier = thread->requested_policy.thrp_qos;
+               req_qos.tier_importance = thread->requested_policy.thrp_qos_relprio;
 
-               return (KERN_TERMINATED);
+               kr = thread_remove_qos_policy(thread);
+               if (kr != KERN_SUCCESS) {
+                       return kr;
+               }
        }
 
-       assert(thread != THREAD_NULL);
+       kr = thread_policy_set_internal(thread, flavor, policy_info, count);
 
-       switch (flavor) {
+       /* Return KERN_QOS_REMOVED instead of KERN_SUCCESS if we succeeded. */
+       if (req_qos.qos_tier != THREAD_QOS_UNSPECIFIED) {
+               if (kr != KERN_SUCCESS) {
+                       /* Reset back to our original tier as the set failed. */
+                       (void)thread_policy_set_internal(thread, THREAD_QOS_POLICY, (thread_policy_t)&req_qos, THREAD_QOS_POLICY_COUNT);
+               }
+       }
 
+       return kr;
+}
+
+kern_return_t
+thread_policy_set_internal(
+       thread_t                     thread,
+       thread_policy_flavor_t       flavor,
+       thread_policy_t              policy_info,
+       mach_msg_type_number_t       count)
+{
+       kern_return_t result = KERN_SUCCESS;
+       struct task_pend_token pend_token = {};
+
+       thread_mtx_lock(thread);
+       if (!thread->active) {
+               thread_mtx_unlock(thread);
+
+               return KERN_TERMINATED;
+       }
+
+       switch (flavor) {
        case THREAD_EXTENDED_POLICY:
        {
-               boolean_t                               timeshare = TRUE;
+               boolean_t timeshare = TRUE;
 
                if (count >= THREAD_EXTENDED_POLICY_COUNT) {
-                       thread_extended_policy_t        info;
+                       thread_extended_policy_t info;
 
                        info = (thread_extended_policy_t)policy_info;
                        timeshare = info->timeshare;
                }
 
-               s = splsched();
-               thread_lock(thread);
-
-               if (!(thread->sched_mode & TH_MODE_FAILSAFE)) {
-                       thread->sched_mode &= ~TH_MODE_REALTIME;
-
-                       if (timeshare)
-                               thread->sched_mode |= TH_MODE_TIMESHARE;
-                       else
-                               thread->sched_mode &= ~TH_MODE_TIMESHARE;
+               sched_mode_t mode = (timeshare == TRUE) ? TH_MODE_TIMESHARE : TH_MODE_FIXED;
 
-                       thread_recompute_priority(thread);
-               }
-               else {
-                       thread->safe_mode &= ~TH_MODE_REALTIME;
+               spl_t s = splsched();
+               thread_lock(thread);
 
-                       if (timeshare)
-                               thread->safe_mode |= TH_MODE_TIMESHARE;
-                       else
-                               thread->safe_mode &= ~TH_MODE_TIMESHARE;
-               }
+               thread_set_user_sched_mode_and_recompute_pri(thread, mode);
 
                thread_unlock(thread);
                splx(s);
 
+               pend_token.tpt_update_thread_sfi = 1;
+
                break;
        }
 
        case THREAD_TIME_CONSTRAINT_POLICY:
        {
-               thread_time_constraint_policy_t         info;
+               thread_time_constraint_policy_t info;
 
                if (count < THREAD_TIME_CONSTRAINT_POLICY_COUNT) {
                        result = KERN_INVALID_ARGUMENT;
@@ -108,48 +365,42 @@ thread_policy_set(
                }
 
                info = (thread_time_constraint_policy_t)policy_info;
-               if (    info->computation > max_rt_quantum      ||
-                               info->computation < min_rt_quantum              ) {
+               if (info->constraint < info->computation ||
+                   info->computation > max_rt_quantum ||
+                   info->computation < min_rt_quantum) {
                        result = KERN_INVALID_ARGUMENT;
                        break;
                }
 
-               s = splsched();
+               spl_t s = splsched();
                thread_lock(thread);
 
-               thread->realtime.period = info->period;
-               thread->realtime.computation = info->computation;
-               thread->realtime.constraint = info->constraint;
-               thread->realtime.preemptible = info->preemptible;
+               thread->realtime.period         = info->period;
+               thread->realtime.computation    = info->computation;
+               thread->realtime.constraint     = info->constraint;
+               thread->realtime.preemptible    = info->preemptible;
 
-               if (!(thread->sched_mode & TH_MODE_FAILSAFE)) {
-                       thread->sched_mode &= ~TH_MODE_TIMESHARE;
-                       thread->sched_mode |= TH_MODE_REALTIME;
-                       thread_recompute_priority(thread);
-               }
-               else {
-                       thread->safe_mode &= ~TH_MODE_TIMESHARE;
-                       thread->safe_mode |= TH_MODE_REALTIME;
-               }
+               thread_set_user_sched_mode_and_recompute_pri(thread, TH_MODE_REALTIME);
 
                thread_unlock(thread);
                splx(s);
 
+               pend_token.tpt_update_thread_sfi = 1;
+
                break;
        }
 
        case THREAD_PRECEDENCE_POLICY:
        {
-               thread_precedence_policy_t              info;
+               thread_precedence_policy_t info;
 
                if (count < THREAD_PRECEDENCE_POLICY_COUNT) {
                        result = KERN_INVALID_ARGUMENT;
                        break;
                }
-
                info = (thread_precedence_policy_t)policy_info;
 
-               s = splsched();
+               spl_t s = splsched();
                thread_lock(thread);
 
                thread->importance = info->importance;
@@ -162,186 +413,133 @@ thread_policy_set(
                break;
        }
 
-       default:
-               result = KERN_INVALID_ARGUMENT;
-               break;
-       }
-
-       act_unlock_thread(act);
-
-       return (result);
-}
-
-static void
-thread_recompute_priority(
-       thread_t                thread)
-{
-       integer_t               priority;
-
-       if (thread->sched_mode & TH_MODE_REALTIME)
-               priority = BASEPRI_REALTIME;
-       else {
-               if (thread->importance > MAXPRI)
-                       priority = MAXPRI;
-               else
-               if (thread->importance < -MAXPRI)
-                       priority = -MAXPRI;
-               else
-                       priority = thread->importance;
+       case THREAD_AFFINITY_POLICY:
+       {
+               thread_affinity_policy_t info;
 
-               priority += thread->task_priority;
+               if (!thread_affinity_is_supported()) {
+                       result = KERN_NOT_SUPPORTED;
+                       break;
+               }
+               if (count < THREAD_AFFINITY_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
 
-               if (priority > thread->max_priority)
-                       priority = thread->max_priority;
-               else
-               if (priority < MINPRI)
-                       priority = MINPRI;
+               info = (thread_affinity_policy_t) policy_info;
+               /*
+                * Unlock the thread mutex here and
+                * return directly after calling thread_affinity_set().
+                * This is necessary for correct lock ordering because
+                * thread_affinity_set() takes the task lock.
+                */
+               thread_mtx_unlock(thread);
+               return thread_affinity_set(thread, info->affinity_tag);
        }
 
-       set_priority(thread, priority);
-}
-
-void
-thread_task_priority(
-       thread_t                thread,
-       integer_t               priority,
-       integer_t               max_priority)
-{
-       spl_t                           s;
-
-       assert(thread != THREAD_NULL);
+#if CONFIG_EMBEDDED
+       case THREAD_BACKGROUND_POLICY:
+       {
+               thread_background_policy_t info;
 
-       s = splsched();
-       thread_lock(thread);
+               if (count < THREAD_BACKGROUND_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
 
-       thread->task_priority = priority;
-       thread->max_priority = max_priority;
+               if (thread->task != current_task()) {
+                       result = KERN_PROTECTION_FAILURE;
+                       break;
+               }
 
-       thread_recompute_priority(thread);
+               info = (thread_background_policy_t) policy_info;
 
-       thread_unlock(thread);
-       splx(s);
-}
+               int enable;
 
-kern_return_t
-thread_policy_get(
-       thread_act_t                    act,
-       thread_policy_flavor_t  flavor,
-       thread_policy_t                 policy_info,
-       mach_msg_type_number_t  *count,
-       boolean_t                               *get_default)
-{
-       kern_return_t                   result = KERN_SUCCESS;
-       thread_t                                thread;
-       spl_t                                   s;
+               if (info->priority == THREAD_BACKGROUND_POLICY_DARWIN_BG) {
+                       enable = TASK_POLICY_ENABLE;
+               } else {
+                       enable = TASK_POLICY_DISABLE;
+               }
 
-       if (act == THR_ACT_NULL)
-               return (KERN_INVALID_ARGUMENT);
+               int category = (current_thread() == thread) ? TASK_POLICY_INTERNAL : TASK_POLICY_EXTERNAL;
 
-       thread = act_lock_thread(act);
-       if (!act->active) {
-               act_unlock_thread(act);
+               proc_set_thread_policy_locked(thread, category, TASK_POLICY_DARWIN_BG, enable, 0, &pend_token);
 
-               return (KERN_TERMINATED);
+               break;
        }
+#endif /* CONFIG_EMBEDDED */
 
-       assert(thread != THREAD_NULL);
-
-       switch (flavor) {
-
-       case THREAD_EXTENDED_POLICY:
+       case THREAD_THROUGHPUT_QOS_POLICY:
        {
-               boolean_t               timeshare = TRUE;
-
-               if (!(*get_default)) {
-                       s = splsched();
-                       thread_lock(thread);
+               thread_throughput_qos_policy_t info = (thread_throughput_qos_policy_t) policy_info;
+               thread_throughput_qos_t tqos;
 
-                       if (    !(thread->sched_mode & TH_MODE_REALTIME)        &&
-                                       !(thread->safe_mode & TH_MODE_REALTIME)                 ) {
-                               if (!(thread->sched_mode & TH_MODE_FAILSAFE))
-                                       timeshare = (thread->sched_mode & TH_MODE_TIMESHARE) != 0;
-                               else
-                                       timeshare = (thread->safe_mode & TH_MODE_TIMESHARE) != 0;
-                       }
-                       else
-                               *get_default = TRUE;
+               if (count < THREAD_THROUGHPUT_QOS_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
 
-                       thread_unlock(thread);
-                       splx(s);
+               if ((result = qos_throughput_policy_validate(info->thread_throughput_qos_tier)) != KERN_SUCCESS) {
+                       break;
                }
 
-               if (*count >= THREAD_EXTENDED_POLICY_COUNT) {
-                       thread_extended_policy_t        info;
+               tqos = qos_extract(info->thread_throughput_qos_tier);
 
-                       info = (thread_extended_policy_t)policy_info;
-                       info->timeshare = timeshare;
-               }
+               proc_set_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE,
+                   TASK_POLICY_THROUGH_QOS, tqos, 0, &pend_token);
 
                break;
        }
 
-       case THREAD_TIME_CONSTRAINT_POLICY:
+       case THREAD_LATENCY_QOS_POLICY:
        {
-               thread_time_constraint_policy_t         info;
+               thread_latency_qos_policy_t info = (thread_latency_qos_policy_t) policy_info;
+               thread_latency_qos_t lqos;
 
-               if (*count < THREAD_TIME_CONSTRAINT_POLICY_COUNT) {
+               if (count < THREAD_LATENCY_QOS_POLICY_COUNT) {
                        result = KERN_INVALID_ARGUMENT;
                        break;
                }
 
-               info = (thread_time_constraint_policy_t)policy_info;
-
-               if (!(*get_default)) {
-                       s = splsched();
-                       thread_lock(thread);
-
-                       if (    (thread->sched_mode & TH_MODE_REALTIME) ||
-                                       (thread->safe_mode & TH_MODE_REALTIME)          ) {
-                               info->period = thread->realtime.period;
-                               info->computation = thread->realtime.computation;
-                               info->constraint = thread->realtime.constraint;
-                               info->preemptible = thread->realtime.preemptible;
-                       }
-                       else
-                               *get_default = TRUE;
-
-                       thread_unlock(thread);
-                       splx(s);
+               if ((result = qos_latency_policy_validate(info->thread_latency_qos_tier)) != KERN_SUCCESS) {
+                       break;
                }
 
-               if (*get_default) {
-                       info->period = 0;
-                       info->computation = std_quantum / 2;
-                       info->constraint = std_quantum;
-                       info->preemptible = TRUE;
-               }
+               lqos = qos_extract(info->thread_latency_qos_tier);
+
+               proc_set_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE,
+                   TASK_POLICY_LATENCY_QOS, lqos, 0, &pend_token);
 
                break;
        }
 
-       case THREAD_PRECEDENCE_POLICY:
+       case THREAD_QOS_POLICY:
        {
-               thread_precedence_policy_t              info;
+               thread_qos_policy_t info = (thread_qos_policy_t)policy_info;
 
-               if (*count < THREAD_PRECEDENCE_POLICY_COUNT) {
+               if (count < THREAD_QOS_POLICY_COUNT) {
                        result = KERN_INVALID_ARGUMENT;
                        break;
                }
 
-               info = (thread_precedence_policy_t)policy_info;
-
-               if (!(*get_default)) {
-                       s = splsched();
-                       thread_lock(thread);
+               if (info->qos_tier < 0 || info->qos_tier >= THREAD_QOS_LAST) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
 
-                       info->importance = thread->importance;
+               if (info->tier_importance > 0 || info->tier_importance < THREAD_QOS_MIN_TIER_IMPORTANCE) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
 
-                       thread_unlock(thread);
-                       splx(s);
+               if (info->qos_tier == THREAD_QOS_UNSPECIFIED && info->tier_importance != 0) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
                }
-               else
-                       info->importance = 0;
+
+               proc_set_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS_AND_RELPRIO,
+                   info->qos_tier, -info->tier_importance, &pend_token);
 
                break;
        }
@@ -351,7 +549,2582 @@ thread_policy_get(
                break;
        }
 
-       act_unlock_thread(act);
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       return result;
+}
+
+/*
+ * Note that there is no implemented difference between POLICY_RR and POLICY_FIFO.
+ * Both result in FIXED mode scheduling.
+ */
+static sched_mode_t
+convert_policy_to_sched_mode(integer_t policy)
+{
+       switch (policy) {
+       case POLICY_TIMESHARE:
+               return TH_MODE_TIMESHARE;
+       case POLICY_RR:
+       case POLICY_FIFO:
+               return TH_MODE_FIXED;
+       default:
+               panic("unexpected sched policy: %d", policy);
+               return TH_MODE_NONE;
+       }
+}
+
+/*
+ * Called either with the thread mutex locked
+ * or from the pthread kext in a 'safe place'.
+ */
+static kern_return_t
+thread_set_mode_and_absolute_pri_internal(thread_t              thread,
+    sched_mode_t          mode,
+    integer_t             priority,
+    task_pend_token_t     pend_token)
+{
+       kern_return_t kr = KERN_SUCCESS;
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       /* This path isn't allowed to change a thread out of realtime. */
+       if ((thread->sched_mode == TH_MODE_REALTIME) ||
+           (thread->saved_mode == TH_MODE_REALTIME)) {
+               kr = KERN_FAILURE;
+               goto unlock;
+       }
+
+       if (thread->policy_reset) {
+               kr = KERN_SUCCESS;
+               goto unlock;
+       }
+
+       sched_mode_t old_mode = thread->sched_mode;
+
+       /*
+        * Reverse engineer and apply the correct importance value
+        * from the requested absolute priority value.
+        *
+        * TODO: Store the absolute priority value instead
+        */
+
+       if (priority >= thread->max_priority) {
+               priority = thread->max_priority - thread->task_priority;
+       } else if (priority >= MINPRI_KERNEL) {
+               priority -=  MINPRI_KERNEL;
+       } else if (priority >= MINPRI_RESERVED) {
+               priority -=  MINPRI_RESERVED;
+       } else {
+               priority -= BASEPRI_DEFAULT;
+       }
+
+       priority += thread->task_priority;
+
+       if (priority > thread->max_priority) {
+               priority = thread->max_priority;
+       } else if (priority < MINPRI) {
+               priority = MINPRI;
+       }
+
+       thread->importance = priority - thread->task_priority;
+
+       thread_set_user_sched_mode_and_recompute_pri(thread, mode);
+
+       if (mode != old_mode) {
+               pend_token->tpt_update_thread_sfi = 1;
+       }
+
+unlock:
+       thread_unlock(thread);
+       splx(s);
+
+       return kr;
+}
 
-       return (result);
+void
+thread_freeze_base_pri(thread_t thread)
+{
+       assert(thread == current_thread());
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       assert((thread->sched_flags & TH_SFLAG_BASE_PRI_FROZEN) == 0);
+       thread->sched_flags |= TH_SFLAG_BASE_PRI_FROZEN;
+
+       thread_unlock(thread);
+       splx(s);
+}
+
+bool
+thread_unfreeze_base_pri(thread_t thread)
+{
+       assert(thread == current_thread());
+       integer_t base_pri;
+       ast_t ast = 0;
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       assert(thread->sched_flags & TH_SFLAG_BASE_PRI_FROZEN);
+       thread->sched_flags &= ~TH_SFLAG_BASE_PRI_FROZEN;
+
+       base_pri = thread->req_base_pri;
+       if (base_pri != thread->base_pri) {
+               /*
+                * This function returns "true" if the base pri change
+                * is the most likely cause for the preemption.
+                */
+               sched_set_thread_base_priority(thread, base_pri);
+               ast = ast_peek(AST_PREEMPT);
+       }
+
+       thread_unlock(thread);
+       splx(s);
+
+       return ast != 0;
+}
+
+uint8_t
+thread_workq_pri_for_qos(thread_qos_t qos)
+{
+       assert(qos < THREAD_QOS_LAST);
+       return (uint8_t)thread_qos_policy_params.qos_pri[qos];
+}
+
+thread_qos_t
+thread_workq_qos_for_pri(int priority)
+{
+       int qos;
+       if (priority > thread_qos_policy_params.qos_pri[THREAD_QOS_USER_INTERACTIVE]) {
+               // indicate that workq should map >UI threads to workq's
+               // internal notation for above-UI work.
+               return THREAD_QOS_UNSPECIFIED;
+       }
+       for (qos = THREAD_QOS_USER_INTERACTIVE; qos > THREAD_QOS_MAINTENANCE; qos--) {
+               // map a given priority up to the next nearest qos band.
+               if (thread_qos_policy_params.qos_pri[qos - 1] < priority) {
+                       return qos;
+               }
+       }
+       return THREAD_QOS_MAINTENANCE;
+}
+
+/*
+ * private interface for pthread workqueues
+ *
+ * Set scheduling policy & absolute priority for thread
+ * May be called with spinlocks held
+ * Thread mutex lock is not held
+ */
+void
+thread_reset_workq_qos(thread_t thread, uint32_t qos)
+{
+       struct task_pend_token pend_token = {};
+
+       assert(qos < THREAD_QOS_LAST);
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_AND_RELPRIO, qos, 0, &pend_token);
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_WORKQ_OVERRIDE, THREAD_QOS_UNSPECIFIED, 0,
+           &pend_token);
+
+       assert(pend_token.tpt_update_sockets == 0);
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+}
+
+/*
+ * private interface for pthread workqueues
+ *
+ * Set scheduling policy & absolute priority for thread
+ * May be called with spinlocks held
+ * Thread mutex lock is held
+ */
+void
+thread_set_workq_override(thread_t thread, uint32_t qos)
+{
+       struct task_pend_token pend_token = {};
+
+       assert(qos < THREAD_QOS_LAST);
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_WORKQ_OVERRIDE, qos, 0, &pend_token);
+
+       assert(pend_token.tpt_update_sockets == 0);
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+}
+
+/*
+ * private interface for pthread workqueues
+ *
+ * Set scheduling policy & absolute priority for thread
+ * May be called with spinlocks held
+ * Thread mutex lock is not held
+ */
+void
+thread_set_workq_pri(thread_t  thread,
+    thread_qos_t qos,
+    integer_t priority,
+    integer_t policy)
+{
+       struct task_pend_token pend_token = {};
+       sched_mode_t mode = convert_policy_to_sched_mode(policy);
+
+       assert(qos < THREAD_QOS_LAST);
+       assert(thread->static_param);
+
+       if (!thread->static_param || !thread->active) {
+               return;
+       }
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_AND_RELPRIO, qos, 0, &pend_token);
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_WORKQ_OVERRIDE, THREAD_QOS_UNSPECIFIED,
+           0, &pend_token);
+
+       thread_unlock(thread);
+       splx(s);
+
+       /* Concern: this doesn't hold the mutex... */
+
+       __assert_only kern_return_t kr;
+       kr = thread_set_mode_and_absolute_pri_internal(thread, mode, priority,
+           &pend_token);
+       assert(kr == KERN_SUCCESS);
+
+       if (pend_token.tpt_update_thread_sfi) {
+               sfi_reevaluate(thread);
+       }
+}
+
+/*
+ * thread_set_mode_and_absolute_pri:
+ *
+ * Set scheduling policy & absolute priority for thread, for deprecated
+ * thread_set_policy and thread_policy interfaces.
+ *
+ * Called with nothing locked.
+ */
+kern_return_t
+thread_set_mode_and_absolute_pri(thread_t   thread,
+    integer_t  policy,
+    integer_t  priority)
+{
+       kern_return_t kr = KERN_SUCCESS;
+       struct task_pend_token pend_token = {};
+
+       sched_mode_t mode = convert_policy_to_sched_mode(policy);
+
+       thread_mtx_lock(thread);
+
+       if (!thread->active) {
+               kr = KERN_TERMINATED;
+               goto unlock;
+       }
+
+       if (thread_is_static_param(thread)) {
+               kr = KERN_POLICY_STATIC;
+               goto unlock;
+       }
+
+       /* Setting legacy policies on threads kills the current QoS */
+       if (thread->requested_policy.thrp_qos != THREAD_QOS_UNSPECIFIED) {
+               thread_remove_qos_policy_locked(thread, &pend_token);
+       }
+
+       kr = thread_set_mode_and_absolute_pri_internal(thread, mode, priority, &pend_token);
+
+unlock:
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       return kr;
+}
+
+/*
+ * Set the thread's requested mode and recompute priority
+ * Called with thread mutex and thread locked
+ *
+ * TODO: Mitigate potential problems caused by moving thread to end of runq
+ * whenever its priority is recomputed
+ *      Only remove when it actually changes? Attempt to re-insert at appropriate location?
+ */
+static void
+thread_set_user_sched_mode_and_recompute_pri(thread_t thread, sched_mode_t mode)
+{
+       if (thread->policy_reset) {
+               return;
+       }
+
+       boolean_t removed = thread_run_queue_remove(thread);
+
+       /*
+        * TODO: Instead of having saved mode, have 'user mode' and 'true mode'.
+        * That way there's zero confusion over which the user wants
+        * and which the kernel wants.
+        */
+       if (thread->sched_flags & TH_SFLAG_DEMOTED_MASK) {
+               thread->saved_mode = mode;
+       } else {
+               sched_set_thread_mode(thread, mode);
+       }
+
+       thread_recompute_priority(thread);
+
+       if (removed) {
+               thread_run_queue_reinsert(thread, SCHED_TAILQ);
+       }
+}
+
+/* called at splsched with thread lock locked */
+static void
+thread_update_qos_cpu_time_locked(thread_t thread)
+{
+       task_t task = thread->task;
+       uint64_t timer_sum, timer_delta;
+
+       /*
+        * This is only as accurate as the distance between
+        * last context switch (embedded) or last user/kernel boundary transition (desktop)
+        * because user_timer and system_timer are only updated then.
+        *
+        * TODO: Consider running a timer_update operation here to update it first.
+        *       Maybe doable with interrupts disabled from current thread.
+        *       If the thread is on a different core, may not be easy to get right.
+        *
+        * TODO: There should be a function for this in timer.c
+        */
+
+       timer_sum = timer_grab(&thread->user_timer);
+       timer_sum += timer_grab(&thread->system_timer);
+       timer_delta = timer_sum - thread->vtimer_qos_save;
+
+       thread->vtimer_qos_save = timer_sum;
+
+       uint64_t* task_counter = NULL;
+
+       /* Update the task-level effective and requested qos stats atomically, because we don't have the task lock. */
+       switch (thread->effective_policy.thep_qos) {
+       case THREAD_QOS_UNSPECIFIED:        task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_default; break;
+       case THREAD_QOS_MAINTENANCE:        task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_maintenance; break;
+       case THREAD_QOS_BACKGROUND:         task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_background; break;
+       case THREAD_QOS_UTILITY:            task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_utility; break;
+       case THREAD_QOS_LEGACY:             task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_legacy; break;
+       case THREAD_QOS_USER_INITIATED:     task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_user_initiated; break;
+       case THREAD_QOS_USER_INTERACTIVE:   task_counter = &task->cpu_time_eqos_stats.cpu_time_qos_user_interactive; break;
+       default:
+               panic("unknown effective QoS: %d", thread->effective_policy.thep_qos);
+       }
+
+       OSAddAtomic64(timer_delta, task_counter);
+
+       /* Update the task-level qos stats atomically, because we don't have the task lock. */
+       switch (thread->requested_policy.thrp_qos) {
+       case THREAD_QOS_UNSPECIFIED:        task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_default; break;
+       case THREAD_QOS_MAINTENANCE:        task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_maintenance; break;
+       case THREAD_QOS_BACKGROUND:         task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_background; break;
+       case THREAD_QOS_UTILITY:            task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_utility; break;
+       case THREAD_QOS_LEGACY:             task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_legacy; break;
+       case THREAD_QOS_USER_INITIATED:     task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_user_initiated; break;
+       case THREAD_QOS_USER_INTERACTIVE:   task_counter = &task->cpu_time_rqos_stats.cpu_time_qos_user_interactive; break;
+       default:
+               panic("unknown requested QoS: %d", thread->requested_policy.thrp_qos);
+       }
+
+       OSAddAtomic64(timer_delta, task_counter);
+}
+
+/*
+ * called with no thread locks held
+ * may hold task lock
+ */
+void
+thread_update_qos_cpu_time(thread_t thread)
+{
+       thread_mtx_lock(thread);
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       thread_update_qos_cpu_time_locked(thread);
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_mtx_unlock(thread);
+}
+
+/*
+ * Calculate base priority from thread attributes, and set it on the thread
+ *
+ * Called with thread_lock and thread mutex held.
+ */
+extern thread_t vm_pageout_scan_thread;
+extern boolean_t vps_dynamic_priority_enabled;
+
+void
+thread_recompute_priority(
+       thread_t                thread)
+{
+       integer_t               priority;
+
+       if (thread->policy_reset) {
+               return;
+       }
+
+       if (thread->sched_mode == TH_MODE_REALTIME) {
+               sched_set_thread_base_priority(thread, BASEPRI_RTQUEUES);
+               return;
+       } else if (thread->effective_policy.thep_qos != THREAD_QOS_UNSPECIFIED) {
+               int qos = thread->effective_policy.thep_qos;
+               int qos_ui_is_urgent = thread->effective_policy.thep_qos_ui_is_urgent;
+               int qos_relprio = -(thread->effective_policy.thep_qos_relprio); /* stored in task policy inverted */
+               int qos_scaled_relprio;
+
+               assert(qos >= 0 && qos < THREAD_QOS_LAST);
+               assert(qos_relprio <= 0 && qos_relprio >= THREAD_QOS_MIN_TIER_IMPORTANCE);
+
+               priority = thread_qos_policy_params.qos_pri[qos];
+               qos_scaled_relprio = thread_qos_scaled_relative_priority(qos, qos_relprio);
+
+               if (qos == THREAD_QOS_USER_INTERACTIVE && qos_ui_is_urgent == 1) {
+                       /* Bump priority 46 to 47 when in a frontmost app */
+                       qos_scaled_relprio += 1;
+               }
+
+               /* TODO: factor in renice priority here? */
+
+               priority += qos_scaled_relprio;
+       } else {
+               if (thread->importance > MAXPRI) {
+                       priority = MAXPRI;
+               } else if (thread->importance < -MAXPRI) {
+                       priority = -MAXPRI;
+               } else {
+                       priority = thread->importance;
+               }
+
+               priority += thread->task_priority;
+       }
+
+       priority = MAX(priority, thread->user_promotion_basepri);
+
+       /*
+        * Clamp priority back into the allowed range for this task.
+        *  The initial priority value could be out of this range due to:
+        *      Task clamped to BG or Utility (max-pri is 4, or 20)
+        *      Task is user task (max-pri is 63)
+        *      Task is kernel task (max-pri is 95)
+        * Note that thread->importance is user-settable to any integer
+        * via THREAD_PRECEDENCE_POLICY.
+        */
+       if (priority > thread->max_priority) {
+               priority = thread->max_priority;
+       } else if (priority < MINPRI) {
+               priority = MINPRI;
+       }
+
+       if (thread->saved_mode == TH_MODE_REALTIME &&
+           thread->sched_flags & TH_SFLAG_FAILSAFE) {
+               priority = DEPRESSPRI;
+       }
+
+       if (thread->effective_policy.thep_terminated == TRUE) {
+               /*
+                * We temporarily want to override the expected priority to
+                * ensure that the thread exits in a timely manner.
+                * Note that this is allowed to exceed thread->max_priority
+                * so that the thread is no longer clamped to background
+                * during the final exit phase.
+                */
+               if (priority < thread->task_priority) {
+                       priority = thread->task_priority;
+               }
+               if (priority < BASEPRI_DEFAULT) {
+                       priority = BASEPRI_DEFAULT;
+               }
+       }
+
+#if CONFIG_EMBEDDED
+       /* No one can have a base priority less than MAXPRI_THROTTLE */
+       if (priority < MAXPRI_THROTTLE) {
+               priority = MAXPRI_THROTTLE;
+       }
+#endif /* CONFIG_EMBEDDED */
+
+       sched_set_thread_base_priority(thread, priority);
+}
+
+/* Called with the task lock held, but not the thread mutex or spinlock */
+void
+thread_policy_update_tasklocked(
+       thread_t           thread,
+       integer_t          priority,
+       integer_t          max_priority,
+       task_pend_token_t  pend_token)
+{
+       thread_mtx_lock(thread);
+
+       if (!thread->active || thread->policy_reset) {
+               thread_mtx_unlock(thread);
+               return;
+       }
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       __unused
+       integer_t old_max_priority = thread->max_priority;
+
+       thread->task_priority = priority;
+       thread->max_priority = max_priority;
+
+#if CONFIG_EMBEDDED
+       /*
+        * When backgrounding a thread, iOS has the semantic that
+        * realtime and fixed priority threads should be demoted
+        * to timeshare background threads.
+        *
+        * On OSX, realtime and fixed priority threads don't lose their mode.
+        *
+        * TODO: Do this inside the thread policy update routine in order to avoid double
+        * remove/reinsert for a runnable thread
+        */
+       if ((max_priority <= MAXPRI_THROTTLE) && (old_max_priority > MAXPRI_THROTTLE)) {
+               sched_thread_mode_demote(thread, TH_SFLAG_THROTTLED);
+       } else if ((max_priority > MAXPRI_THROTTLE) && (old_max_priority <= MAXPRI_THROTTLE)) {
+               sched_thread_mode_undemote(thread, TH_SFLAG_THROTTLED);
+       }
+#endif /* CONFIG_EMBEDDED */
+
+       thread_policy_update_spinlocked(thread, TRUE, pend_token);
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_mtx_unlock(thread);
+}
+
+/*
+ * Reset thread to default state in preparation for termination
+ * Called with thread mutex locked
+ *
+ * Always called on current thread, so we don't need a run queue remove
+ */
+void
+thread_policy_reset(
+       thread_t                thread)
+{
+       spl_t           s;
+
+       assert(thread == current_thread());
+
+       s = splsched();
+       thread_lock(thread);
+
+       if (thread->sched_flags & TH_SFLAG_FAILSAFE) {
+               sched_thread_mode_undemote(thread, TH_SFLAG_FAILSAFE);
+       }
+
+       if (thread->sched_flags & TH_SFLAG_THROTTLED) {
+               sched_thread_mode_undemote(thread, TH_SFLAG_THROTTLED);
+       }
+
+       /* At this point, the various demotions should be inactive */
+       assert(!(thread->sched_flags & TH_SFLAG_DEMOTED_MASK));
+       assert(!(thread->sched_flags & TH_SFLAG_THROTTLED));
+       assert(!(thread->sched_flags & TH_SFLAG_DEPRESSED_MASK));
+
+       /* Reset thread back to task-default basepri and mode  */
+       sched_mode_t newmode = SCHED(initial_thread_sched_mode)(thread->task);
+
+       sched_set_thread_mode(thread, newmode);
+
+       thread->importance = 0;
+
+       /* Prevent further changes to thread base priority or mode */
+       thread->policy_reset = 1;
+
+       sched_set_thread_base_priority(thread, thread->task_priority);
+
+       thread_unlock(thread);
+       splx(s);
+}
+
+kern_return_t
+thread_policy_get(
+       thread_t                                thread,
+       thread_policy_flavor_t  flavor,
+       thread_policy_t                 policy_info,
+       mach_msg_type_number_t  *count,
+       boolean_t                               *get_default)
+{
+       kern_return_t                   result = KERN_SUCCESS;
+
+       if (thread == THREAD_NULL) {
+               return KERN_INVALID_ARGUMENT;
+       }
+
+       thread_mtx_lock(thread);
+       if (!thread->active) {
+               thread_mtx_unlock(thread);
+
+               return KERN_TERMINATED;
+       }
+
+       switch (flavor) {
+       case THREAD_EXTENDED_POLICY:
+       {
+               boolean_t               timeshare = TRUE;
+
+               if (!(*get_default)) {
+                       spl_t s = splsched();
+                       thread_lock(thread);
+
+                       if ((thread->sched_mode != TH_MODE_REALTIME) &&
+                           (thread->saved_mode != TH_MODE_REALTIME)) {
+                               if (!(thread->sched_flags & TH_SFLAG_DEMOTED_MASK)) {
+                                       timeshare = (thread->sched_mode == TH_MODE_TIMESHARE) != 0;
+                               } else {
+                                       timeshare = (thread->saved_mode == TH_MODE_TIMESHARE) != 0;
+                               }
+                       } else {
+                               *get_default = TRUE;
+                       }
+
+                       thread_unlock(thread);
+                       splx(s);
+               }
+
+               if (*count >= THREAD_EXTENDED_POLICY_COUNT) {
+                       thread_extended_policy_t        info;
+
+                       info = (thread_extended_policy_t)policy_info;
+                       info->timeshare = timeshare;
+               }
+
+               break;
+       }
+
+       case THREAD_TIME_CONSTRAINT_POLICY:
+       {
+               thread_time_constraint_policy_t         info;
+
+               if (*count < THREAD_TIME_CONSTRAINT_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               info = (thread_time_constraint_policy_t)policy_info;
+
+               if (!(*get_default)) {
+                       spl_t s = splsched();
+                       thread_lock(thread);
+
+                       if ((thread->sched_mode == TH_MODE_REALTIME) ||
+                           (thread->saved_mode == TH_MODE_REALTIME)) {
+                               info->period = thread->realtime.period;
+                               info->computation = thread->realtime.computation;
+                               info->constraint = thread->realtime.constraint;
+                               info->preemptible = thread->realtime.preemptible;
+                       } else {
+                               *get_default = TRUE;
+                       }
+
+                       thread_unlock(thread);
+                       splx(s);
+               }
+
+               if (*get_default) {
+                       info->period = 0;
+                       info->computation = default_timeshare_computation;
+                       info->constraint = default_timeshare_constraint;
+                       info->preemptible = TRUE;
+               }
+
+               break;
+       }
+
+       case THREAD_PRECEDENCE_POLICY:
+       {
+               thread_precedence_policy_t              info;
+
+               if (*count < THREAD_PRECEDENCE_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               info = (thread_precedence_policy_t)policy_info;
+
+               if (!(*get_default)) {
+                       spl_t s = splsched();
+                       thread_lock(thread);
+
+                       info->importance = thread->importance;
+
+                       thread_unlock(thread);
+                       splx(s);
+               } else {
+                       info->importance = 0;
+               }
+
+               break;
+       }
+
+       case THREAD_AFFINITY_POLICY:
+       {
+               thread_affinity_policy_t                info;
+
+               if (!thread_affinity_is_supported()) {
+                       result = KERN_NOT_SUPPORTED;
+                       break;
+               }
+               if (*count < THREAD_AFFINITY_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               info = (thread_affinity_policy_t)policy_info;
+
+               if (!(*get_default)) {
+                       info->affinity_tag = thread_affinity_get(thread);
+               } else {
+                       info->affinity_tag = THREAD_AFFINITY_TAG_NULL;
+               }
+
+               break;
+       }
+
+       case THREAD_POLICY_STATE:
+       {
+               thread_policy_state_t           info;
+
+               if (*count < THREAD_POLICY_STATE_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               /* Only root can get this info */
+               if (current_task()->sec_token.val[0] != 0) {
+                       result = KERN_PROTECTION_FAILURE;
+                       break;
+               }
+
+               info = (thread_policy_state_t)(void*)policy_info;
+
+               if (!(*get_default)) {
+                       info->flags = 0;
+
+                       spl_t s = splsched();
+                       thread_lock(thread);
+
+                       info->flags |= (thread->static_param ? THREAD_POLICY_STATE_FLAG_STATIC_PARAM : 0);
+
+                       info->thps_requested_policy = *(uint64_t*)(void*)(&thread->requested_policy);
+                       info->thps_effective_policy = *(uint64_t*)(void*)(&thread->effective_policy);
+
+                       info->thps_user_promotions          = 0;
+                       info->thps_user_promotion_basepri   = thread->user_promotion_basepri;
+                       info->thps_ipc_overrides            = thread->kevent_overrides;
+
+                       proc_get_thread_policy_bitfield(thread, info);
+
+                       thread_unlock(thread);
+                       splx(s);
+               } else {
+                       info->requested = 0;
+                       info->effective = 0;
+                       info->pending = 0;
+               }
+
+               break;
+       }
+
+       case THREAD_LATENCY_QOS_POLICY:
+       {
+               thread_latency_qos_policy_t info = (thread_latency_qos_policy_t) policy_info;
+               thread_latency_qos_t plqos;
+
+               if (*count < THREAD_LATENCY_QOS_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               if (*get_default) {
+                       plqos = 0;
+               } else {
+                       plqos = proc_get_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_LATENCY_QOS, NULL);
+               }
+
+               info->thread_latency_qos_tier = qos_latency_policy_package(plqos);
+       }
+       break;
+
+       case THREAD_THROUGHPUT_QOS_POLICY:
+       {
+               thread_throughput_qos_policy_t info = (thread_throughput_qos_policy_t) policy_info;
+               thread_throughput_qos_t ptqos;
+
+               if (*count < THREAD_THROUGHPUT_QOS_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               if (*get_default) {
+                       ptqos = 0;
+               } else {
+                       ptqos = proc_get_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_THROUGH_QOS, NULL);
+               }
+
+               info->thread_throughput_qos_tier = qos_throughput_policy_package(ptqos);
+       }
+       break;
+
+       case THREAD_QOS_POLICY:
+       {
+               thread_qos_policy_t info = (thread_qos_policy_t)policy_info;
+
+               if (*count < THREAD_QOS_POLICY_COUNT) {
+                       result = KERN_INVALID_ARGUMENT;
+                       break;
+               }
+
+               if (!(*get_default)) {
+                       int relprio_value = 0;
+                       info->qos_tier = proc_get_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE,
+                           TASK_POLICY_QOS_AND_RELPRIO, &relprio_value);
+
+                       info->tier_importance = -relprio_value;
+               } else {
+                       info->qos_tier = THREAD_QOS_UNSPECIFIED;
+                       info->tier_importance = 0;
+               }
+
+               break;
+       }
+
+       default:
+               result = KERN_INVALID_ARGUMENT;
+               break;
+       }
+
+       thread_mtx_unlock(thread);
+
+       return result;
+}
+
+void
+thread_policy_create(thread_t thread)
+{
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(IMP_UPDATE, (IMP_UPDATE_TASK_CREATE | TASK_POLICY_THREAD))) | DBG_FUNC_START,
+           thread_tid(thread), theffective_0(thread),
+           theffective_1(thread), thread->base_pri, 0);
+
+       /* We pass a pend token but ignore it */
+       struct task_pend_token pend_token = {};
+
+       thread_policy_update_internal_spinlocked(thread, TRUE, &pend_token);
+
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(IMP_UPDATE, (IMP_UPDATE_TASK_CREATE | TASK_POLICY_THREAD))) | DBG_FUNC_END,
+           thread_tid(thread), theffective_0(thread),
+           theffective_1(thread), thread->base_pri, 0);
+}
+
+static void
+thread_policy_update_spinlocked(thread_t thread, boolean_t recompute_priority, task_pend_token_t pend_token)
+{
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(IMP_UPDATE, TASK_POLICY_THREAD) | DBG_FUNC_START),
+           thread_tid(thread), theffective_0(thread),
+           theffective_1(thread), thread->base_pri, 0);
+
+       thread_policy_update_internal_spinlocked(thread, recompute_priority, pend_token);
+
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(IMP_UPDATE, TASK_POLICY_THREAD)) | DBG_FUNC_END,
+           thread_tid(thread), theffective_0(thread),
+           theffective_1(thread), thread->base_pri, 0);
+}
+
+
+
+/*
+ * One thread state update function TO RULE THEM ALL
+ *
+ * This function updates the thread effective policy fields
+ * and pushes the results to the relevant subsystems.
+ *
+ * Returns TRUE if a pended action needs to be run.
+ *
+ * Called with thread spinlock locked, task may be locked, thread mutex may be locked
+ */
+static void
+thread_policy_update_internal_spinlocked(thread_t thread, boolean_t recompute_priority,
+    task_pend_token_t pend_token)
+{
+       /*
+        * Step 1:
+        *  Gather requested policy and effective task state
+        */
+
+       struct thread_requested_policy requested = thread->requested_policy;
+       struct task_effective_policy task_effective = thread->task->effective_policy;
+
+       /*
+        * Step 2:
+        *  Calculate new effective policies from requested policy, task and thread state
+        *  Rules:
+        *      Don't change requested, it won't take effect
+        */
+
+       struct thread_effective_policy next = {};
+
+       next.thep_qos_ui_is_urgent = task_effective.tep_qos_ui_is_urgent;
+
+       uint32_t next_qos = requested.thrp_qos;
+
+       if (requested.thrp_qos != THREAD_QOS_UNSPECIFIED) {
+               next_qos = MAX(requested.thrp_qos_override, next_qos);
+               next_qos = MAX(requested.thrp_qos_promote, next_qos);
+               next_qos = MAX(requested.thrp_qos_kevent_override, next_qos);
+               next_qos = MAX(requested.thrp_qos_wlsvc_override, next_qos);
+               next_qos = MAX(requested.thrp_qos_workq_override, next_qos);
+       }
+
+       next.thep_qos = next_qos;
+
+       /* A task clamp will result in an effective QoS even when requested is UNSPECIFIED */
+       if (task_effective.tep_qos_clamp != THREAD_QOS_UNSPECIFIED) {
+               if (next.thep_qos != THREAD_QOS_UNSPECIFIED) {
+                       next.thep_qos = MIN(task_effective.tep_qos_clamp, next.thep_qos);
+               } else {
+                       next.thep_qos = task_effective.tep_qos_clamp;
+               }
+       }
+
+       /*
+        * Extract outbound-promotion QoS before applying task ceiling or BG clamp
+        * This allows QoS promotions to work properly even after the process is unclamped.
+        */
+       next.thep_qos_promote = next.thep_qos;
+
+       /* The ceiling only applies to threads that are in the QoS world */
+       if (task_effective.tep_qos_ceiling != THREAD_QOS_UNSPECIFIED &&
+           next.thep_qos != THREAD_QOS_UNSPECIFIED) {
+               next.thep_qos = MIN(task_effective.tep_qos_ceiling, next.thep_qos);
+       }
+
+       /* Apply the sync ipc qos override */
+       assert(requested.thrp_qos_sync_ipc_override == THREAD_QOS_UNSPECIFIED);
+
+       /*
+        * The QoS relative priority is only applicable when the original programmer's
+        * intended (requested) QoS is in effect. When the QoS is clamped (e.g.
+        * USER_INITIATED-13REL clamped to UTILITY), the relative priority is not honored,
+        * since otherwise it would be lower than unclamped threads. Similarly, in the
+        * presence of boosting, the programmer doesn't know what other actors
+        * are boosting the thread.
+        */
+       if ((requested.thrp_qos != THREAD_QOS_UNSPECIFIED) &&
+           (requested.thrp_qos == next.thep_qos) &&
+           (requested.thrp_qos_override == THREAD_QOS_UNSPECIFIED)) {
+               next.thep_qos_relprio = requested.thrp_qos_relprio;
+       } else {
+               next.thep_qos_relprio = 0;
+       }
+
+       /* Calculate DARWIN_BG */
+       boolean_t wants_darwinbg        = FALSE;
+       boolean_t wants_all_sockets_bg  = FALSE; /* Do I want my existing sockets to be bg */
+
+       /*
+        * If DARWIN_BG has been requested at either level, it's engaged.
+        * darwinbg threads always create bg sockets,
+        * but only some types of darwinbg change the sockets
+        * after they're created
+        */
+       if (requested.thrp_int_darwinbg || requested.thrp_ext_darwinbg) {
+               wants_all_sockets_bg = wants_darwinbg = TRUE;
+       }
+
+       if (requested.thrp_pidbind_bg) {
+               wants_all_sockets_bg = wants_darwinbg = TRUE;
+       }
+
+       if (task_effective.tep_darwinbg) {
+               wants_darwinbg = TRUE;
+       }
+
+       if (next.thep_qos == THREAD_QOS_BACKGROUND ||
+           next.thep_qos == THREAD_QOS_MAINTENANCE) {
+               wants_darwinbg = TRUE;
+       }
+
+       /* Calculate side effects of DARWIN_BG */
+
+       if (wants_darwinbg) {
+               next.thep_darwinbg = 1;
+       }
+
+       if (next.thep_darwinbg || task_effective.tep_new_sockets_bg) {
+               next.thep_new_sockets_bg = 1;
+       }
+
+       /* Don't use task_effective.tep_all_sockets_bg here */
+       if (wants_all_sockets_bg) {
+               next.thep_all_sockets_bg = 1;
+       }
+
+       /* darwinbg implies background QOS (or lower) */
+       if (next.thep_darwinbg &&
+           (next.thep_qos > THREAD_QOS_BACKGROUND || next.thep_qos == THREAD_QOS_UNSPECIFIED)) {
+               next.thep_qos = THREAD_QOS_BACKGROUND;
+               next.thep_qos_relprio = 0;
+       }
+
+       /* Calculate IO policy */
+
+       int iopol = THROTTLE_LEVEL_TIER0;
+
+       /* Factor in the task's IO policy */
+       if (next.thep_darwinbg) {
+               iopol = MAX(iopol, task_effective.tep_bg_iotier);
+       }
+
+       iopol = MAX(iopol, task_effective.tep_io_tier);
+
+       /* Look up the associated IO tier value for the QoS class */
+       iopol = MAX(iopol, thread_qos_policy_params.qos_iotier[next.thep_qos]);
+
+       iopol = MAX(iopol, requested.thrp_int_iotier);
+       iopol = MAX(iopol, requested.thrp_ext_iotier);
+
+       next.thep_io_tier = iopol;
+
+       /*
+        * If a QoS override is causing IO to go into a lower tier, we also set
+        * the passive bit so that a thread doesn't end up stuck in its own throttle
+        * window when the override goes away.
+        */
+       boolean_t qos_io_override_active = FALSE;
+       if (thread_qos_policy_params.qos_iotier[next.thep_qos] <
+           thread_qos_policy_params.qos_iotier[requested.thrp_qos]) {
+               qos_io_override_active = TRUE;
+       }
+
+       /* Calculate Passive IO policy */
+       if (requested.thrp_ext_iopassive ||
+           requested.thrp_int_iopassive ||
+           qos_io_override_active ||
+           task_effective.tep_io_passive) {
+               next.thep_io_passive = 1;
+       }
+
+       /* Calculate timer QOS */
+       uint32_t latency_qos = requested.thrp_latency_qos;
+
+       latency_qos = MAX(latency_qos, task_effective.tep_latency_qos);
+       latency_qos = MAX(latency_qos, thread_qos_policy_params.qos_latency_qos[next.thep_qos]);
+
+       next.thep_latency_qos = latency_qos;
+
+       /* Calculate throughput QOS */
+       uint32_t through_qos = requested.thrp_through_qos;
+
+       through_qos = MAX(through_qos, task_effective.tep_through_qos);
+       through_qos = MAX(through_qos, thread_qos_policy_params.qos_through_qos[next.thep_qos]);
+
+       next.thep_through_qos = through_qos;
+
+       if (task_effective.tep_terminated || requested.thrp_terminated) {
+               /* Shoot down the throttles that slow down exit or response to SIGTERM */
+               next.thep_terminated    = 1;
+               next.thep_darwinbg      = 0;
+               next.thep_io_tier       = THROTTLE_LEVEL_TIER0;
+               next.thep_qos           = THREAD_QOS_UNSPECIFIED;
+               next.thep_latency_qos   = LATENCY_QOS_TIER_UNSPECIFIED;
+               next.thep_through_qos   = THROUGHPUT_QOS_TIER_UNSPECIFIED;
+       }
+
+       /*
+        * Step 3:
+        *  Swap out old policy for new policy
+        */
+
+       struct thread_effective_policy prev = thread->effective_policy;
+
+       thread_update_qos_cpu_time_locked(thread);
+
+       /* This is the point where the new values become visible to other threads */
+       thread->effective_policy = next;
+
+       /*
+        * Step 4:
+        *  Pend updates that can't be done while holding the thread lock
+        */
+
+       if (prev.thep_all_sockets_bg != next.thep_all_sockets_bg) {
+               pend_token->tpt_update_sockets = 1;
+       }
+
+       /* TODO: Doesn't this only need to be done if the throttle went up? */
+       if (prev.thep_io_tier != next.thep_io_tier) {
+               pend_token->tpt_update_throttle = 1;
+       }
+
+       /*
+        * Check for the attributes that sfi_thread_classify() consults,
+        *  and trigger SFI re-evaluation.
+        */
+       if (prev.thep_qos != next.thep_qos ||
+           prev.thep_darwinbg != next.thep_darwinbg) {
+               pend_token->tpt_update_thread_sfi = 1;
+       }
+
+       integer_t old_base_pri = thread->base_pri;
+
+       /*
+        * Step 5:
+        *  Update other subsystems as necessary if something has changed
+        */
+
+       /* Check for the attributes that thread_recompute_priority() consults */
+       if (prev.thep_qos != next.thep_qos ||
+           prev.thep_qos_relprio != next.thep_qos_relprio ||
+           prev.thep_qos_ui_is_urgent != next.thep_qos_ui_is_urgent ||
+           prev.thep_terminated != next.thep_terminated ||
+           pend_token->tpt_force_recompute_pri == 1 ||
+           recompute_priority) {
+               thread_recompute_priority(thread);
+       }
+
+       /*
+        * Check if the thread is waiting on a turnstile and needs priority propagation.
+        */
+       if (pend_token->tpt_update_turnstile &&
+           ((old_base_pri == thread->base_pri) ||
+           !thread_get_waiting_turnstile(thread))) {
+               /*
+                * Reset update turnstile pend token since either
+                * the thread priority did not change or thread is
+                * not blocked on a turnstile.
+                */
+               pend_token->tpt_update_turnstile = 0;
+       }
+}
+
+
+/*
+ * Initiate a thread policy state transition on a thread with its TID
+ * Useful if you cannot guarantee the thread won't get terminated
+ * Precondition: No locks are held
+ * Will take task lock - using the non-tid variant is faster
+ * if you already have a thread ref.
+ */
+void
+proc_set_thread_policy_with_tid(task_t     task,
+    uint64_t   tid,
+    int        category,
+    int        flavor,
+    int        value)
+{
+       /* takes task lock, returns ref'ed thread or NULL */
+       thread_t thread = task_findtid(task, tid);
+
+       if (thread == THREAD_NULL) {
+               return;
+       }
+
+       proc_set_thread_policy(thread, category, flavor, value);
+
+       thread_deallocate(thread);
+}
+
+/*
+ * Initiate a thread policy transition on a thread
+ * This path supports networking transitions (i.e. darwinbg transitions)
+ * Precondition: No locks are held
+ */
+void
+proc_set_thread_policy(thread_t   thread,
+    int        category,
+    int        flavor,
+    int        value)
+{
+       struct task_pend_token pend_token = {};
+
+       thread_mtx_lock(thread);
+
+       proc_set_thread_policy_locked(thread, category, flavor, value, 0, &pend_token);
+
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+}
+
+/*
+ * Do the things that can't be done while holding a thread mutex.
+ * These are set up to call back into thread policy to get the latest value,
+ * so they don't have to be synchronized with the update.
+ * The only required semantic is 'call this sometime after updating effective policy'
+ *
+ * Precondition: Thread mutex is not held
+ *
+ * This may be called with the task lock held, but in that case it won't be
+ * called with tpt_update_sockets set.
+ */
+void
+thread_policy_update_complete_unlocked(thread_t thread, task_pend_token_t pend_token)
+{
+#ifdef MACH_BSD
+       if (pend_token->tpt_update_sockets) {
+               proc_apply_task_networkbg(thread->task->bsd_info, thread);
+       }
+#endif /* MACH_BSD */
+
+       if (pend_token->tpt_update_throttle) {
+               rethrottle_thread(thread->uthread);
+       }
+
+       if (pend_token->tpt_update_thread_sfi) {
+               sfi_reevaluate(thread);
+       }
+
+       if (pend_token->tpt_update_turnstile) {
+               turnstile_update_thread_priority_chain(thread);
+       }
+}
+
+/*
+ * Set and update thread policy
+ * Thread mutex might be held
+ */
+static void
+proc_set_thread_policy_locked(thread_t          thread,
+    int               category,
+    int               flavor,
+    int               value,
+    int               value2,
+    task_pend_token_t pend_token)
+{
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       proc_set_thread_policy_spinlocked(thread, category, flavor, value, value2, pend_token);
+
+       thread_unlock(thread);
+       splx(s);
+}
+
+/*
+ * Set and update thread policy
+ * Thread spinlock is held
+ */
+static void
+proc_set_thread_policy_spinlocked(thread_t          thread,
+    int               category,
+    int               flavor,
+    int               value,
+    int               value2,
+    task_pend_token_t pend_token)
+{
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(flavor, (category | TASK_POLICY_THREAD))) | DBG_FUNC_START,
+           thread_tid(thread), threquested_0(thread),
+           threquested_1(thread), value, 0);
+
+       thread_set_requested_policy_spinlocked(thread, category, flavor, value, value2, pend_token);
+
+       thread_policy_update_spinlocked(thread, FALSE, pend_token);
+
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(flavor, (category | TASK_POLICY_THREAD))) | DBG_FUNC_END,
+           thread_tid(thread), threquested_0(thread),
+           threquested_1(thread), tpending(pend_token), 0);
+}
+
+/*
+ * Set the requested state for a specific flavor to a specific value.
+ */
+static void
+thread_set_requested_policy_spinlocked(thread_t     thread,
+    int               category,
+    int               flavor,
+    int               value,
+    int               value2,
+    task_pend_token_t pend_token)
+{
+       int tier, passive;
+
+       struct thread_requested_policy requested = thread->requested_policy;
+
+       switch (flavor) {
+       /* Category: EXTERNAL and INTERNAL, thread and task */
+
+       case TASK_POLICY_DARWIN_BG:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       requested.thrp_ext_darwinbg = value;
+               } else {
+                       requested.thrp_int_darwinbg = value;
+               }
+               break;
+
+       case TASK_POLICY_IOPOL:
+               proc_iopol_to_tier(value, &tier, &passive);
+               if (category == TASK_POLICY_EXTERNAL) {
+                       requested.thrp_ext_iotier  = tier;
+                       requested.thrp_ext_iopassive = passive;
+               } else {
+                       requested.thrp_int_iotier  = tier;
+                       requested.thrp_int_iopassive = passive;
+               }
+               break;
+
+       case TASK_POLICY_IO:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       requested.thrp_ext_iotier = value;
+               } else {
+                       requested.thrp_int_iotier = value;
+               }
+               break;
+
+       case TASK_POLICY_PASSIVE_IO:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       requested.thrp_ext_iopassive = value;
+               } else {
+                       requested.thrp_int_iopassive = value;
+               }
+               break;
+
+       /* Category: ATTRIBUTE, thread only */
+
+       case TASK_POLICY_PIDBIND_BG:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_pidbind_bg = value;
+               break;
+
+       case TASK_POLICY_LATENCY_QOS:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_latency_qos = value;
+               break;
+
+       case TASK_POLICY_THROUGH_QOS:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_through_qos = value;
+               break;
+
+       case TASK_POLICY_QOS_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_qos_override = value;
+               pend_token->tpt_update_turnstile = 1;
+               break;
+
+       case TASK_POLICY_QOS_AND_RELPRIO:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_qos = value;
+               requested.thrp_qos_relprio = value2;
+               pend_token->tpt_update_turnstile = 1;
+               DTRACE_BOOST3(qos_set, uint64_t, thread->thread_id, int, requested.thrp_qos, int, requested.thrp_qos_relprio);
+               break;
+
+       case TASK_POLICY_QOS_WORKQ_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_qos_workq_override = value;
+               pend_token->tpt_update_turnstile = 1;
+               break;
+
+       case TASK_POLICY_QOS_PROMOTE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_qos_promote = value;
+               break;
+
+       case TASK_POLICY_QOS_KEVENT_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_qos_kevent_override = value;
+               pend_token->tpt_update_turnstile = 1;
+               break;
+
+       case TASK_POLICY_QOS_SERVICER_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_qos_wlsvc_override = value;
+               pend_token->tpt_update_turnstile = 1;
+               break;
+
+       case TASK_POLICY_TERMINATED:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               requested.thrp_terminated = value;
+               break;
+
+       default:
+               panic("unknown task policy: %d %d %d", category, flavor, value);
+               break;
+       }
+
+       thread->requested_policy = requested;
+}
+
+/*
+ * Gets what you set. Effective values may be different.
+ * Precondition: No locks are held
+ */
+int
+proc_get_thread_policy(thread_t   thread,
+    int        category,
+    int        flavor)
+{
+       int value = 0;
+       thread_mtx_lock(thread);
+       value = proc_get_thread_policy_locked(thread, category, flavor, NULL);
+       thread_mtx_unlock(thread);
+       return value;
+}
+
+static int
+proc_get_thread_policy_locked(thread_t   thread,
+    int        category,
+    int        flavor,
+    int*       value2)
+{
+       int value = 0;
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       value = thread_get_requested_policy_spinlocked(thread, category, flavor, value2);
+
+       thread_unlock(thread);
+       splx(s);
+
+       return value;
+}
+
+/*
+ * Gets what you set. Effective values may be different.
+ */
+static int
+thread_get_requested_policy_spinlocked(thread_t thread,
+    int      category,
+    int      flavor,
+    int*     value2)
+{
+       int value = 0;
+
+       struct thread_requested_policy requested = thread->requested_policy;
+
+       switch (flavor) {
+       case TASK_POLICY_DARWIN_BG:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       value = requested.thrp_ext_darwinbg;
+               } else {
+                       value = requested.thrp_int_darwinbg;
+               }
+               break;
+       case TASK_POLICY_IOPOL:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       value = proc_tier_to_iopol(requested.thrp_ext_iotier,
+                           requested.thrp_ext_iopassive);
+               } else {
+                       value = proc_tier_to_iopol(requested.thrp_int_iotier,
+                           requested.thrp_int_iopassive);
+               }
+               break;
+       case TASK_POLICY_IO:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       value = requested.thrp_ext_iotier;
+               } else {
+                       value = requested.thrp_int_iotier;
+               }
+               break;
+       case TASK_POLICY_PASSIVE_IO:
+               if (category == TASK_POLICY_EXTERNAL) {
+                       value = requested.thrp_ext_iopassive;
+               } else {
+                       value = requested.thrp_int_iopassive;
+               }
+               break;
+       case TASK_POLICY_QOS:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_qos;
+               break;
+       case TASK_POLICY_QOS_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_qos_override;
+               break;
+       case TASK_POLICY_LATENCY_QOS:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_latency_qos;
+               break;
+       case TASK_POLICY_THROUGH_QOS:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_through_qos;
+               break;
+       case TASK_POLICY_QOS_WORKQ_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_qos_workq_override;
+               break;
+       case TASK_POLICY_QOS_AND_RELPRIO:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               assert(value2 != NULL);
+               value = requested.thrp_qos;
+               *value2 = requested.thrp_qos_relprio;
+               break;
+       case TASK_POLICY_QOS_PROMOTE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_qos_promote;
+               break;
+       case TASK_POLICY_QOS_KEVENT_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_qos_kevent_override;
+               break;
+       case TASK_POLICY_QOS_SERVICER_OVERRIDE:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_qos_wlsvc_override;
+               break;
+       case TASK_POLICY_TERMINATED:
+               assert(category == TASK_POLICY_ATTRIBUTE);
+               value = requested.thrp_terminated;
+               break;
+
+       default:
+               panic("unknown policy_flavor %d", flavor);
+               break;
+       }
+
+       return value;
+}
+
+/*
+ * Gets what is actually in effect, for subsystems which pull policy instead of receive updates.
+ *
+ * NOTE: This accessor does not take the task or thread lock.
+ * Notifications of state updates need to be externally synchronized with state queries.
+ * This routine *MUST* remain interrupt safe, as it is potentially invoked
+ * within the context of a timer interrupt.
+ *
+ * TODO: I think we can get away with architecting this such that we don't need to look at the task ever.
+ *      Is that a good idea? Maybe it's best to avoid evaluate-all-the-threads updates.
+ *      I don't think that cost is worth not having the right answer.
+ */
+int
+proc_get_effective_thread_policy(thread_t thread,
+    int      flavor)
+{
+       int value = 0;
+
+       switch (flavor) {
+       case TASK_POLICY_DARWIN_BG:
+               /*
+                * This call is used within the timer layer, as well as
+                * prioritizing requests to the graphics system.
+                * It also informs SFI and originator-bg-state.
+                * Returns 1 for background mode, 0 for normal mode
+                */
+
+               value = thread->effective_policy.thep_darwinbg ? 1 : 0;
+               break;
+       case TASK_POLICY_IO:
+               /*
+                * The I/O system calls here to find out what throttling tier to apply to an operation.
+                * Returns THROTTLE_LEVEL_* values
+                */
+               value = thread->effective_policy.thep_io_tier;
+               if (thread->iotier_override != THROTTLE_LEVEL_NONE) {
+                       value = MIN(value, thread->iotier_override);
+               }
+               break;
+       case TASK_POLICY_PASSIVE_IO:
+               /*
+                * The I/O system calls here to find out whether an operation should be passive.
+                * (i.e. not cause operations with lower throttle tiers to be throttled)
+                * Returns 1 for passive mode, 0 for normal mode
+                *
+                * If an override is causing IO to go into a lower tier, we also set
+                * the passive bit so that a thread doesn't end up stuck in its own throttle
+                * window when the override goes away.
+                */
+               value = thread->effective_policy.thep_io_passive ? 1 : 0;
+               if (thread->iotier_override != THROTTLE_LEVEL_NONE &&
+                   thread->iotier_override < thread->effective_policy.thep_io_tier) {
+                       value = 1;
+               }
+               break;
+       case TASK_POLICY_ALL_SOCKETS_BG:
+               /*
+                * do_background_socket() calls this to determine whether
+                * it should change the thread's sockets
+                * Returns 1 for background mode, 0 for normal mode
+                * This consults both thread and task so un-DBGing a thread while the task is BG
+                * doesn't get you out of the network throttle.
+                */
+               value = (thread->effective_policy.thep_all_sockets_bg ||
+                   thread->task->effective_policy.tep_all_sockets_bg) ? 1 : 0;
+               break;
+       case TASK_POLICY_NEW_SOCKETS_BG:
+               /*
+                * socreate() calls this to determine if it should mark a new socket as background
+                * Returns 1 for background mode, 0 for normal mode
+                */
+               value = thread->effective_policy.thep_new_sockets_bg ? 1 : 0;
+               break;
+       case TASK_POLICY_LATENCY_QOS:
+               /*
+                * timer arming calls into here to find out the timer coalescing level
+                * Returns a latency QoS tier (0-6)
+                */
+               value = thread->effective_policy.thep_latency_qos;
+               break;
+       case TASK_POLICY_THROUGH_QOS:
+               /*
+                * This value is passed into the urgency callout from the scheduler
+                * to the performance management subsystem.
+                *
+                * Returns a throughput QoS tier (0-6)
+                */
+               value = thread->effective_policy.thep_through_qos;
+               break;
+       case TASK_POLICY_QOS:
+               /*
+                * This is communicated to the performance management layer and SFI.
+                *
+                * Returns a QoS policy tier
+                */
+               value = thread->effective_policy.thep_qos;
+               break;
+       default:
+               panic("unknown thread policy flavor %d", flavor);
+               break;
+       }
+
+       return value;
+}
+
+
+/*
+ * (integer_t) casts limit the number of bits we can fit here
+ * this interface is deprecated and replaced by the _EXT struct ?
+ */
+static void
+proc_get_thread_policy_bitfield(thread_t thread, thread_policy_state_t info)
+{
+       uint64_t bits = 0;
+       struct thread_requested_policy requested = thread->requested_policy;
+
+       bits |= (requested.thrp_int_darwinbg    ? POLICY_REQ_INT_DARWIN_BG  : 0);
+       bits |= (requested.thrp_ext_darwinbg    ? POLICY_REQ_EXT_DARWIN_BG  : 0);
+       bits |= (requested.thrp_int_iotier      ? (((uint64_t)requested.thrp_int_iotier) << POLICY_REQ_INT_IO_TIER_SHIFT) : 0);
+       bits |= (requested.thrp_ext_iotier      ? (((uint64_t)requested.thrp_ext_iotier) << POLICY_REQ_EXT_IO_TIER_SHIFT) : 0);
+       bits |= (requested.thrp_int_iopassive   ? POLICY_REQ_INT_PASSIVE_IO : 0);
+       bits |= (requested.thrp_ext_iopassive   ? POLICY_REQ_EXT_PASSIVE_IO : 0);
+
+       bits |= (requested.thrp_qos             ? (((uint64_t)requested.thrp_qos) << POLICY_REQ_TH_QOS_SHIFT) : 0);
+       bits |= (requested.thrp_qos_override    ? (((uint64_t)requested.thrp_qos_override) << POLICY_REQ_TH_QOS_OVER_SHIFT)   : 0);
+
+       bits |= (requested.thrp_pidbind_bg      ? POLICY_REQ_PIDBIND_BG     : 0);
+
+       bits |= (requested.thrp_latency_qos     ? (((uint64_t)requested.thrp_latency_qos) << POLICY_REQ_BASE_LATENCY_QOS_SHIFT) : 0);
+       bits |= (requested.thrp_through_qos     ? (((uint64_t)requested.thrp_through_qos) << POLICY_REQ_BASE_THROUGH_QOS_SHIFT) : 0);
+
+       info->requested = (integer_t) bits;
+       bits = 0;
+
+       struct thread_effective_policy effective = thread->effective_policy;
+
+       bits |= (effective.thep_darwinbg        ? POLICY_EFF_DARWIN_BG      : 0);
+
+       bits |= (effective.thep_io_tier         ? (((uint64_t)effective.thep_io_tier) << POLICY_EFF_IO_TIER_SHIFT) : 0);
+       bits |= (effective.thep_io_passive      ? POLICY_EFF_IO_PASSIVE     : 0);
+       bits |= (effective.thep_all_sockets_bg  ? POLICY_EFF_ALL_SOCKETS_BG : 0);
+       bits |= (effective.thep_new_sockets_bg  ? POLICY_EFF_NEW_SOCKETS_BG : 0);
+
+       bits |= (effective.thep_qos             ? (((uint64_t)effective.thep_qos) << POLICY_EFF_TH_QOS_SHIFT) : 0);
+
+       bits |= (effective.thep_latency_qos     ? (((uint64_t)effective.thep_latency_qos) << POLICY_EFF_LATENCY_QOS_SHIFT) : 0);
+       bits |= (effective.thep_through_qos     ? (((uint64_t)effective.thep_through_qos) << POLICY_EFF_THROUGH_QOS_SHIFT) : 0);
+
+       info->effective = (integer_t)bits;
+       bits = 0;
+
+       info->pending = 0;
+}
+
+/*
+ * Sneakily trace either the task and thread requested
+ * or just the thread requested, depending on if we have enough room.
+ * We do have room on LP64. On LP32, we have to split it between two uintptr_t's.
+ *
+ *                                LP32            LP64
+ * threquested_0(thread)          thread[0]       task[0]
+ * threquested_1(thread)          thread[1]       thread[0]
+ *
+ */
+
+uintptr_t
+threquested_0(thread_t thread)
+{
+       static_assert(sizeof(struct thread_requested_policy) == sizeof(uint64_t), "size invariant violated");
+
+       uintptr_t* raw = (uintptr_t*)(void*)&thread->requested_policy;
+
+       return raw[0];
+}
+
+uintptr_t
+threquested_1(thread_t thread)
+{
+#if defined __LP64__
+       return *(uintptr_t*)&thread->task->requested_policy;
+#else
+       uintptr_t* raw = (uintptr_t*)(void*)&thread->requested_policy;
+       return raw[1];
+#endif
+}
+
+uintptr_t
+theffective_0(thread_t thread)
+{
+       static_assert(sizeof(struct thread_effective_policy) == sizeof(uint64_t), "size invariant violated");
+
+       uintptr_t* raw = (uintptr_t*)(void*)&thread->effective_policy;
+       return raw[0];
+}
+
+uintptr_t
+theffective_1(thread_t thread)
+{
+#if defined __LP64__
+       return *(uintptr_t*)&thread->task->effective_policy;
+#else
+       uintptr_t* raw = (uintptr_t*)(void*)&thread->effective_policy;
+       return raw[1];
+#endif
+}
+
+
+/*
+ * Set an override on the thread which is consulted with a
+ * higher priority than the task/thread policy. This should
+ * only be set for temporary grants until the thread
+ * returns to the userspace boundary
+ *
+ * We use atomic operations to swap in the override, with
+ * the assumption that the thread itself can
+ * read the override and clear it on return to userspace.
+ *
+ * No locking is performed, since it is acceptable to see
+ * a stale override for one loop through throttle_lowpri_io().
+ * However a thread reference must be held on the thread.
+ */
+
+void
+set_thread_iotier_override(thread_t thread, int policy)
+{
+       int current_override;
+
+       /* Let most aggressive I/O policy win until user boundary */
+       do {
+               current_override = thread->iotier_override;
+
+               if (current_override != THROTTLE_LEVEL_NONE) {
+                       policy = MIN(current_override, policy);
+               }
+
+               if (current_override == policy) {
+                       /* no effective change */
+                       return;
+               }
+       } while (!OSCompareAndSwap(current_override, policy, &thread->iotier_override));
+
+       /*
+        * Since the thread may be currently throttled,
+        * re-evaluate tiers and potentially break out
+        * of an msleep
+        */
+       rethrottle_thread(thread->uthread);
+}
+
+/*
+ * Userspace synchronization routines (like pthread mutexes, pthread reader-writer locks,
+ * semaphores, dispatch_sync) may result in priority inversions where a higher priority
+ * (i.e. scheduler priority, I/O tier, QoS tier) is waiting on a resource owned by a lower
+ * priority thread. In these cases, we attempt to propagate the priority token, as long
+ * as the subsystem informs us of the relationships between the threads. The userspace
+ * synchronization subsystem should maintain the information of owner->resource and
+ * resource->waiters itself.
+ */
+
+/*
+ * This helper canonicalizes the resource/resource_type given the current qos_override_mode
+ * in effect. Note that wildcards (THREAD_QOS_OVERRIDE_RESOURCE_WILDCARD) may need
+ * to be handled specially in the future, but for now it's fine to slam
+ * *resource to USER_ADDR_NULL even if it was previously a wildcard.
+ */
+static void
+canonicalize_resource_and_type(user_addr_t *resource, int *resource_type)
+{
+       if (qos_override_mode == QOS_OVERRIDE_MODE_OVERHANG_PEAK || qos_override_mode == QOS_OVERRIDE_MODE_IGNORE_OVERRIDE) {
+               /* Map all input resource/type to a single one */
+               *resource = USER_ADDR_NULL;
+               *resource_type = THREAD_QOS_OVERRIDE_TYPE_UNKNOWN;
+       } else if (qos_override_mode == QOS_OVERRIDE_MODE_FINE_GRAINED_OVERRIDE) {
+               /* no transform */
+       } else if (qos_override_mode == QOS_OVERRIDE_MODE_FINE_GRAINED_OVERRIDE_BUT_SINGLE_MUTEX_OVERRIDE) {
+               /* Map all mutex overrides to a single one, to avoid memory overhead */
+               if (*resource_type == THREAD_QOS_OVERRIDE_TYPE_PTHREAD_MUTEX) {
+                       *resource = USER_ADDR_NULL;
+               }
+       }
+}
+
+/* This helper routine finds an existing override if known. Locking should be done by caller */
+static struct thread_qos_override *
+find_qos_override(thread_t thread,
+    user_addr_t resource,
+    int resource_type)
+{
+       struct thread_qos_override *override;
+
+       override = thread->overrides;
+       while (override) {
+               if (override->override_resource == resource &&
+                   override->override_resource_type == resource_type) {
+                       return override;
+               }
+
+               override = override->override_next;
+       }
+
+       return NULL;
+}
+
+static void
+find_and_decrement_qos_override(thread_t       thread,
+    user_addr_t    resource,
+    int            resource_type,
+    boolean_t      reset,
+    struct thread_qos_override **free_override_list)
+{
+       struct thread_qos_override *override, *override_prev;
+
+       override_prev = NULL;
+       override = thread->overrides;
+       while (override) {
+               struct thread_qos_override *override_next = override->override_next;
+
+               if ((THREAD_QOS_OVERRIDE_RESOURCE_WILDCARD == resource || override->override_resource == resource) &&
+                   (THREAD_QOS_OVERRIDE_TYPE_WILDCARD == resource_type || override->override_resource_type == resource_type)) {
+                       if (reset) {
+                               override->override_contended_resource_count = 0;
+                       } else {
+                               override->override_contended_resource_count--;
+                       }
+
+                       if (override->override_contended_resource_count == 0) {
+                               if (override_prev == NULL) {
+                                       thread->overrides = override_next;
+                               } else {
+                                       override_prev->override_next = override_next;
+                               }
+
+                               /* Add to out-param for later zfree */
+                               override->override_next = *free_override_list;
+                               *free_override_list = override;
+                       } else {
+                               override_prev = override;
+                       }
+
+                       if (THREAD_QOS_OVERRIDE_RESOURCE_WILDCARD != resource) {
+                               return;
+                       }
+               } else {
+                       override_prev = override;
+               }
+
+               override = override_next;
+       }
+}
+
+/* This helper recalculates the current requested override using the policy selected at boot */
+static int
+calculate_requested_qos_override(thread_t thread)
+{
+       if (qos_override_mode == QOS_OVERRIDE_MODE_IGNORE_OVERRIDE) {
+               return THREAD_QOS_UNSPECIFIED;
+       }
+
+       /* iterate over all overrides and calculate MAX */
+       struct thread_qos_override *override;
+       int qos_override = THREAD_QOS_UNSPECIFIED;
+
+       override = thread->overrides;
+       while (override) {
+               qos_override = MAX(qos_override, override->override_qos);
+               override = override->override_next;
+       }
+
+       return qos_override;
+}
+
+/*
+ * Returns:
+ * - 0 on success
+ * - EINVAL if some invalid input was passed
+ */
+static int
+proc_thread_qos_add_override_internal(thread_t         thread,
+    int              override_qos,
+    boolean_t        first_override_for_resource,
+    user_addr_t      resource,
+    int              resource_type)
+{
+       struct task_pend_token pend_token = {};
+       int rc = 0;
+
+       thread_mtx_lock(thread);
+
+       KERNEL_DEBUG_CONSTANT((IMPORTANCE_CODE(IMP_USYNCH_QOS_OVERRIDE, IMP_USYNCH_ADD_OVERRIDE)) | DBG_FUNC_START,
+           thread_tid(thread), override_qos, first_override_for_resource ? 1 : 0, 0, 0);
+
+       DTRACE_BOOST5(qos_add_override_pre, uint64_t, thread_tid(thread),
+           uint64_t, thread->requested_policy.thrp_qos,
+           uint64_t, thread->effective_policy.thep_qos,
+           int, override_qos, boolean_t, first_override_for_resource);
+
+       struct thread_qos_override *override;
+       struct thread_qos_override *override_new = NULL;
+       int new_qos_override, prev_qos_override;
+       int new_effective_qos;
+
+       canonicalize_resource_and_type(&resource, &resource_type);
+
+       override = find_qos_override(thread, resource, resource_type);
+       if (first_override_for_resource && !override) {
+               /* We need to allocate a new object. Drop the thread lock and
+                * recheck afterwards in case someone else added the override
+                */
+               thread_mtx_unlock(thread);
+               override_new = zalloc(thread_qos_override_zone);
+               thread_mtx_lock(thread);
+               override = find_qos_override(thread, resource, resource_type);
+       }
+       if (first_override_for_resource && override) {
+               /* Someone else already allocated while the thread lock was dropped */
+               override->override_contended_resource_count++;
+       } else if (!override && override_new) {
+               override = override_new;
+               override_new = NULL;
+               override->override_next = thread->overrides;
+               /* since first_override_for_resource was TRUE */
+               override->override_contended_resource_count = 1;
+               override->override_resource = resource;
+               override->override_resource_type = resource_type;
+               override->override_qos = THREAD_QOS_UNSPECIFIED;
+               thread->overrides = override;
+       }
+
+       if (override) {
+               if (override->override_qos == THREAD_QOS_UNSPECIFIED) {
+                       override->override_qos = override_qos;
+               } else {
+                       override->override_qos = MAX(override->override_qos, override_qos);
+               }
+       }
+
+       /* Determine how to combine the various overrides into a single current
+        * requested override
+        */
+       new_qos_override = calculate_requested_qos_override(thread);
+
+       prev_qos_override = proc_get_thread_policy_locked(thread,
+           TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS_OVERRIDE, NULL);
+
+       if (new_qos_override != prev_qos_override) {
+               proc_set_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE,
+                   TASK_POLICY_QOS_OVERRIDE,
+                   new_qos_override, 0, &pend_token);
+       }
+
+       new_effective_qos = proc_get_effective_thread_policy(thread, TASK_POLICY_QOS);
+
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       if (override_new) {
+               zfree(thread_qos_override_zone, override_new);
+       }
+
+       DTRACE_BOOST4(qos_add_override_post, int, prev_qos_override,
+           int, new_qos_override, int, new_effective_qos, int, rc);
+
+       KERNEL_DEBUG_CONSTANT((IMPORTANCE_CODE(IMP_USYNCH_QOS_OVERRIDE, IMP_USYNCH_ADD_OVERRIDE)) | DBG_FUNC_END,
+           new_qos_override, resource, resource_type, 0, 0);
+
+       return rc;
+}
+
+int
+proc_thread_qos_add_override(task_t           task,
+    thread_t         thread,
+    uint64_t         tid,
+    int              override_qos,
+    boolean_t        first_override_for_resource,
+    user_addr_t      resource,
+    int              resource_type)
+{
+       boolean_t has_thread_reference = FALSE;
+       int rc = 0;
+
+       if (thread == THREAD_NULL) {
+               thread = task_findtid(task, tid);
+               /* returns referenced thread */
+
+               if (thread == THREAD_NULL) {
+                       KERNEL_DEBUG_CONSTANT((IMPORTANCE_CODE(IMP_USYNCH_QOS_OVERRIDE, IMP_USYNCH_ADD_OVERRIDE)) | DBG_FUNC_NONE,
+                           tid, 0, 0xdead, 0, 0);
+                       return ESRCH;
+               }
+               has_thread_reference = TRUE;
+       } else {
+               assert(thread->task == task);
+       }
+       rc = proc_thread_qos_add_override_internal(thread, override_qos,
+           first_override_for_resource, resource, resource_type);
+       if (has_thread_reference) {
+               thread_deallocate(thread);
+       }
+
+       return rc;
+}
+
+static void
+proc_thread_qos_remove_override_internal(thread_t       thread,
+    user_addr_t    resource,
+    int            resource_type,
+    boolean_t      reset)
+{
+       struct task_pend_token pend_token = {};
+
+       struct thread_qos_override *deferred_free_override_list = NULL;
+       int new_qos_override, prev_qos_override, new_effective_qos;
+
+       thread_mtx_lock(thread);
+
+       canonicalize_resource_and_type(&resource, &resource_type);
+
+       find_and_decrement_qos_override(thread, resource, resource_type, reset, &deferred_free_override_list);
+
+       KERNEL_DEBUG_CONSTANT((IMPORTANCE_CODE(IMP_USYNCH_QOS_OVERRIDE, IMP_USYNCH_REMOVE_OVERRIDE)) | DBG_FUNC_START,
+           thread_tid(thread), resource, reset, 0, 0);
+
+       DTRACE_BOOST3(qos_remove_override_pre, uint64_t, thread_tid(thread),
+           uint64_t, thread->requested_policy.thrp_qos,
+           uint64_t, thread->effective_policy.thep_qos);
+
+       /* Determine how to combine the various overrides into a single current requested override */
+       new_qos_override = calculate_requested_qos_override(thread);
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       /*
+        * The override chain and therefore the value of the current override is locked with thread mutex,
+        * so we can do a get/set without races.  However, the rest of thread policy is locked under the spinlock.
+        * This means you can't change the current override from a spinlock-only setter.
+        */
+       prev_qos_override = thread_get_requested_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS_OVERRIDE, NULL);
+
+       if (new_qos_override != prev_qos_override) {
+               proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS_OVERRIDE, new_qos_override, 0, &pend_token);
+       }
+
+       new_effective_qos = proc_get_effective_thread_policy(thread, TASK_POLICY_QOS);
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       while (deferred_free_override_list) {
+               struct thread_qos_override *override_next = deferred_free_override_list->override_next;
+
+               zfree(thread_qos_override_zone, deferred_free_override_list);
+               deferred_free_override_list = override_next;
+       }
+
+       DTRACE_BOOST3(qos_remove_override_post, int, prev_qos_override,
+           int, new_qos_override, int, new_effective_qos);
+
+       KERNEL_DEBUG_CONSTANT((IMPORTANCE_CODE(IMP_USYNCH_QOS_OVERRIDE, IMP_USYNCH_REMOVE_OVERRIDE)) | DBG_FUNC_END,
+           thread_tid(thread), 0, 0, 0, 0);
+}
+
+int
+proc_thread_qos_remove_override(task_t      task,
+    thread_t    thread,
+    uint64_t    tid,
+    user_addr_t resource,
+    int         resource_type)
+{
+       boolean_t has_thread_reference = FALSE;
+
+       if (thread == THREAD_NULL) {
+               thread = task_findtid(task, tid);
+               /* returns referenced thread */
+
+               if (thread == THREAD_NULL) {
+                       KERNEL_DEBUG_CONSTANT((IMPORTANCE_CODE(IMP_USYNCH_QOS_OVERRIDE, IMP_USYNCH_REMOVE_OVERRIDE)) | DBG_FUNC_NONE,
+                           tid, 0, 0xdead, 0, 0);
+                       return ESRCH;
+               }
+               has_thread_reference = TRUE;
+       } else {
+               assert(task == thread->task);
+       }
+
+       proc_thread_qos_remove_override_internal(thread, resource, resource_type, FALSE);
+
+       if (has_thread_reference) {
+               thread_deallocate(thread);
+       }
+
+       return 0;
+}
+
+/* Deallocate before thread termination */
+void
+proc_thread_qos_deallocate(thread_t thread)
+{
+       /* This thread must have no more IPC overrides. */
+       assert(thread->kevent_overrides == 0);
+       assert(thread->requested_policy.thrp_qos_kevent_override == THREAD_QOS_UNSPECIFIED);
+       assert(thread->requested_policy.thrp_qos_wlsvc_override == THREAD_QOS_UNSPECIFIED);
+
+       /*
+        * Clear out any lingering override objects.
+        */
+       struct thread_qos_override *override;
+
+       thread_mtx_lock(thread);
+       override = thread->overrides;
+       thread->overrides = NULL;
+       thread->requested_policy.thrp_qos_override = THREAD_QOS_UNSPECIFIED;
+       /* We don't need to re-evaluate thread policy here because the thread has already exited */
+       thread_mtx_unlock(thread);
+
+       while (override) {
+               struct thread_qos_override *override_next = override->override_next;
+
+               zfree(thread_qos_override_zone, override);
+               override = override_next;
+       }
+}
+
+/*
+ * Set up the primordial thread's QoS
+ */
+void
+task_set_main_thread_qos(task_t task, thread_t thread)
+{
+       struct task_pend_token pend_token = {};
+
+       assert(thread->task == task);
+
+       thread_mtx_lock(thread);
+
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(IMP_MAIN_THREAD_QOS, 0)) | DBG_FUNC_START,
+           thread_tid(thread), threquested_0(thread), threquested_1(thread),
+           thread->requested_policy.thrp_qos, 0);
+
+       int primordial_qos = task_compute_main_thread_qos(task);
+
+       proc_set_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE, TASK_POLICY_QOS_AND_RELPRIO,
+           primordial_qos, 0, &pend_token);
+
+       thread_mtx_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+           (IMPORTANCE_CODE(IMP_MAIN_THREAD_QOS, 0)) | DBG_FUNC_END,
+           thread_tid(thread), threquested_0(thread), threquested_1(thread),
+           primordial_qos, 0);
+}
+
+/*
+ * KPI for pthread kext
+ *
+ * Return a good guess at what the initial manager QoS will be
+ * Dispatch can override this in userspace if it so chooses
+ */
+int
+task_get_default_manager_qos(task_t task)
+{
+       int primordial_qos = task_compute_main_thread_qos(task);
+
+       if (primordial_qos == THREAD_QOS_LEGACY) {
+               primordial_qos = THREAD_QOS_USER_INITIATED;
+       }
+
+       return primordial_qos;
+}
+
+/*
+ * Check if the kernel promotion on thread has changed
+ * and apply it.
+ *
+ * thread locked on entry and exit
+ */
+boolean_t
+thread_recompute_kernel_promotion_locked(thread_t thread)
+{
+       boolean_t needs_update = FALSE;
+       int kern_promotion_schedpri = thread_get_inheritor_turnstile_sched_priority(thread);
+
+       /*
+        * For now just assert that kern_promotion_schedpri <= MAXPRI_PROMOTE.
+        * TURNSTILE_KERNEL_PROMOTE adds threads on the waitq already capped to MAXPRI_PROMOTE
+        * and propagates the priority through the chain with the same cap, because as of now it does
+        * not differenciate on the kernel primitive.
+        *
+        * If this assumption will change with the adoption of a kernel primitive that does not
+        * cap the when adding/propagating,
+        * then here is the place to put the generic cap for all kernel primitives
+        * (converts the assert to kern_promotion_schedpri = MIN(priority, MAXPRI_PROMOTE))
+        */
+       assert(kern_promotion_schedpri <= MAXPRI_PROMOTE);
+
+       if (kern_promotion_schedpri != thread->kern_promotion_schedpri) {
+               KDBG(MACHDBG_CODE(
+                           DBG_MACH_SCHED, MACH_TURNSTILE_KERNEL_CHANGE) | DBG_FUNC_NONE,
+                   thread_tid(thread),
+                   kern_promotion_schedpri,
+                   thread->kern_promotion_schedpri);
+
+               needs_update = TRUE;
+               thread->kern_promotion_schedpri = kern_promotion_schedpri;
+               thread_recompute_sched_pri(thread, SETPRI_DEFAULT);
+       }
+
+       return needs_update;
+}
+
+/*
+ * Check if the user promotion on thread has changed
+ * and apply it.
+ *
+ * thread locked on entry, might drop the thread lock
+ * and reacquire it.
+ */
+boolean_t
+thread_recompute_user_promotion_locked(thread_t thread)
+{
+       boolean_t needs_update = FALSE;
+       struct task_pend_token pend_token = {};
+       int user_promotion_basepri = MIN(thread_get_inheritor_turnstile_base_priority(thread), MAXPRI_USER);
+       int old_base_pri = thread->base_pri;
+       thread_qos_t qos_promotion;
+
+       /* Check if user promotion has changed */
+       if (thread->user_promotion_basepri == user_promotion_basepri) {
+               return needs_update;
+       } else {
+               KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
+                   (TURNSTILE_CODE(TURNSTILE_PRIORITY_OPERATIONS, (THREAD_USER_PROMOTION_CHANGE))) | DBG_FUNC_NONE,
+                   thread_tid(thread),
+                   user_promotion_basepri,
+                   thread->user_promotion_basepri,
+                   0, 0);
+               KDBG(MACHDBG_CODE(
+                           DBG_MACH_SCHED, MACH_TURNSTILE_USER_CHANGE) | DBG_FUNC_NONE,
+                   thread_tid(thread),
+                   user_promotion_basepri,
+                   thread->user_promotion_basepri);
+       }
+
+       /* Update the user promotion base pri */
+       thread->user_promotion_basepri = user_promotion_basepri;
+       pend_token.tpt_force_recompute_pri = 1;
+
+       if (user_promotion_basepri <= MAXPRI_THROTTLE) {
+               qos_promotion = THREAD_QOS_UNSPECIFIED;
+       } else {
+               qos_promotion = thread_user_promotion_qos_for_pri(user_promotion_basepri);
+       }
+
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_PROMOTE, qos_promotion, 0, &pend_token);
+
+       if (thread_get_waiting_turnstile(thread) &&
+           thread->base_pri != old_base_pri) {
+               needs_update = TRUE;
+       }
+
+       thread_unlock(thread);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+
+       thread_lock(thread);
+
+       return needs_update;
+}
+
+/*
+ * Convert the thread user promotion base pri to qos for threads in qos world.
+ * For priority above UI qos, the qos would be set to UI.
+ */
+thread_qos_t
+thread_user_promotion_qos_for_pri(int priority)
+{
+       int qos;
+       for (qos = THREAD_QOS_USER_INTERACTIVE; qos > THREAD_QOS_MAINTENANCE; qos--) {
+               if (thread_qos_policy_params.qos_pri[qos] <= priority) {
+                       return qos;
+               }
+       }
+       return THREAD_QOS_MAINTENANCE;
+}
+
+/*
+ * Set the thread's QoS Kevent override
+ * Owned by the Kevent subsystem
+ *
+ * May be called with spinlocks held, but not spinlocks
+ * that may deadlock against the thread lock, the throttle lock, or the SFI lock.
+ *
+ * One 'add' must be balanced by one 'drop'.
+ * Between 'add' and 'drop', the overide QoS value may be updated with an 'update'.
+ * Before the thread is deallocated, there must be 0 remaining overrides.
+ */
+static void
+thread_kevent_override(thread_t    thread,
+    uint32_t    qos_override,
+    boolean_t   is_new_override)
+{
+       struct task_pend_token pend_token = {};
+       boolean_t needs_update;
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       uint32_t old_override = thread->requested_policy.thrp_qos_kevent_override;
+
+       assert(qos_override > THREAD_QOS_UNSPECIFIED);
+       assert(qos_override < THREAD_QOS_LAST);
+
+       if (is_new_override) {
+               if (thread->kevent_overrides++ == 0) {
+                       /* This add is the first override for this thread */
+                       assert(old_override == THREAD_QOS_UNSPECIFIED);
+               } else {
+                       /* There are already other overrides in effect for this thread */
+                       assert(old_override > THREAD_QOS_UNSPECIFIED);
+               }
+       } else {
+               /* There must be at least one override (the previous add call) in effect */
+               assert(thread->kevent_overrides > 0);
+               assert(old_override > THREAD_QOS_UNSPECIFIED);
+       }
+
+       /*
+        * We can't allow lowering if there are several IPC overrides because
+        * the caller can't possibly know the whole truth
+        */
+       if (thread->kevent_overrides == 1) {
+               needs_update = qos_override != old_override;
+       } else {
+               needs_update = qos_override > old_override;
+       }
+
+       if (needs_update) {
+               proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+                   TASK_POLICY_QOS_KEVENT_OVERRIDE,
+                   qos_override, 0, &pend_token);
+               assert(pend_token.tpt_update_sockets == 0);
+       }
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+}
+
+void
+thread_add_kevent_override(thread_t thread, uint32_t qos_override)
+{
+       thread_kevent_override(thread, qos_override, TRUE);
+}
+
+void
+thread_update_kevent_override(thread_t thread, uint32_t qos_override)
+{
+       thread_kevent_override(thread, qos_override, FALSE);
+}
+
+void
+thread_drop_kevent_override(thread_t thread)
+{
+       struct task_pend_token pend_token = {};
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       assert(thread->kevent_overrides > 0);
+
+       if (--thread->kevent_overrides == 0) {
+               /*
+                * There are no more overrides for this thread, so we should
+                * clear out the saturated override value
+                */
+
+               proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+                   TASK_POLICY_QOS_KEVENT_OVERRIDE, THREAD_QOS_UNSPECIFIED,
+                   0, &pend_token);
+       }
+
+       thread_unlock(thread);
+       splx(s);
+
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+}
+
+/*
+ * Set the thread's QoS Workloop Servicer override
+ * Owned by the Kevent subsystem
+ *
+ * May be called with spinlocks held, but not spinlocks
+ * that may deadlock against the thread lock, the throttle lock, or the SFI lock.
+ *
+ * One 'add' must be balanced by one 'drop'.
+ * Between 'add' and 'drop', the overide QoS value may be updated with an 'update'.
+ * Before the thread is deallocated, there must be 0 remaining overrides.
+ */
+static void
+thread_servicer_override(thread_t    thread,
+    uint32_t    qos_override,
+    boolean_t   is_new_override)
+{
+       struct task_pend_token pend_token = {};
+
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       if (is_new_override) {
+               assert(!thread->requested_policy.thrp_qos_wlsvc_override);
+       } else {
+               assert(thread->requested_policy.thrp_qos_wlsvc_override);
+       }
+
+       proc_set_thread_policy_spinlocked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_SERVICER_OVERRIDE,
+           qos_override, 0, &pend_token);
+
+       thread_unlock(thread);
+       splx(s);
+
+       assert(pend_token.tpt_update_sockets == 0);
+       thread_policy_update_complete_unlocked(thread, &pend_token);
+}
+
+void
+thread_add_servicer_override(thread_t thread, uint32_t qos_override)
+{
+       assert(qos_override > THREAD_QOS_UNSPECIFIED);
+       assert(qos_override < THREAD_QOS_LAST);
+
+       thread_servicer_override(thread, qos_override, TRUE);
+}
+
+void
+thread_update_servicer_override(thread_t thread, uint32_t qos_override)
+{
+       assert(qos_override > THREAD_QOS_UNSPECIFIED);
+       assert(qos_override < THREAD_QOS_LAST);
+
+       thread_servicer_override(thread, qos_override, FALSE);
+}
+
+void
+thread_drop_servicer_override(thread_t thread)
+{
+       thread_servicer_override(thread, THREAD_QOS_UNSPECIFIED, FALSE);
+}
+
+
+/* Get current requested qos / relpri, may be called from spinlock context */
+thread_qos_t
+thread_get_requested_qos(thread_t thread, int *relpri)
+{
+       int relprio_value = 0;
+       thread_qos_t qos;
+
+       qos = proc_get_thread_policy_locked(thread, TASK_POLICY_ATTRIBUTE,
+           TASK_POLICY_QOS_AND_RELPRIO, &relprio_value);
+       if (relpri) {
+               *relpri = -relprio_value;
+       }
+       return qos;
+}
+
+/*
+ * This function will promote the thread priority
+ * since exec could block other threads calling
+ * proc_find on the proc. This boost must be removed
+ * via call to thread_clear_exec_promotion.
+ *
+ * This should be replaced with a generic 'priority inheriting gate' mechanism (24194397)
+ */
+void
+thread_set_exec_promotion(thread_t thread)
+{
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       sched_thread_promote_reason(thread, TH_SFLAG_EXEC_PROMOTED, 0);
+
+       thread_unlock(thread);
+       splx(s);
+}
+
+/*
+ * This function will clear the exec thread
+ * promotion set on the thread by thread_set_exec_promotion.
+ */
+void
+thread_clear_exec_promotion(thread_t thread)
+{
+       spl_t s = splsched();
+       thread_lock(thread);
+
+       sched_thread_unpromote_reason(thread, TH_SFLAG_EXEC_PROMOTED, 0);
+
+       thread_unlock(thread);
+       splx(s);
 }