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path: root/src/core/lib/iomgr/resource_quota.c
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/*
 *
 * Copyright 2016, Google Inc.
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 *     * Redistributions of source code must retain the above copyright
 * notice, this list of conditions and the following disclaimer.
 *     * Redistributions in binary form must reproduce the above
 * copyright notice, this list of conditions and the following disclaimer
 * in the documentation and/or other materials provided with the
 * distribution.
 *     * Neither the name of Google Inc. nor the names of its
 * contributors may be used to endorse or promote products derived from
 * this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 *
 */

#include "src/core/lib/iomgr/resource_quota.h"

#include <limits.h>
#include <stdint.h>
#include <string.h>

#include <grpc/support/alloc.h>
#include <grpc/support/log.h>
#include <grpc/support/string_util.h>
#include <grpc/support/useful.h>

#include "src/core/lib/iomgr/combiner.h"

int grpc_resource_quota_trace = 0;

#define MEMORY_USAGE_ESTIMATION_MAX 65536

/* Internal linked list pointers for a resource user */
typedef struct {
  grpc_resource_user *next;
  grpc_resource_user *prev;
} grpc_resource_user_link;

/* Resource users are kept in (potentially) several intrusive linked lists
   at once. These are the list names. */
typedef enum {
  /* Resource users that are waiting for an allocation */
  GRPC_RULIST_AWAITING_ALLOCATION,
  /* Resource users that have free memory available for internal reclamation */
  GRPC_RULIST_NON_EMPTY_FREE_POOL,
  /* Resource users that have published a benign reclamation is available */
  GRPC_RULIST_RECLAIMER_BENIGN,
  /* Resource users that have published a destructive reclamation is
     available */
  GRPC_RULIST_RECLAIMER_DESTRUCTIVE,
  /* Number of lists: must be last */
  GRPC_RULIST_COUNT
} grpc_rulist;

struct grpc_resource_user {
  /* The quota this resource user consumes from */
  grpc_resource_quota *resource_quota;

  /* Closure to schedule an allocation under the resource quota combiner lock */
  grpc_closure allocate_closure;
  /* Closure to publish a non empty free pool under the resource quota combiner
     lock */
  grpc_closure add_to_free_pool_closure;

  /* one ref for each ref call (released by grpc_resource_user_unref), and one
     ref for each byte allocated (released by grpc_resource_user_free) */
  gpr_atm refs;
  /* is this resource user unlocked? starts at 0, increases for each shutdown
     call */
  gpr_atm shutdown;

  gpr_mu mu;
  /* The amount of memory (in bytes) this user has cached for its own use: to
     avoid quota contention, each resource user can keep some memory in
     addition to what it is immediately using (e.g., for caching), and the quota
     can pull it back under memory pressure.
     This value can become negative if more memory has been requested than
     existed in the free pool, at which point the quota is consulted to bring
     this value non-negative (asynchronously). */
  int64_t free_pool;
  /* A list of closures to call once free_pool becomes non-negative - ie when
     all outstanding allocations have been granted. */
  grpc_closure_list on_allocated;
  /* True if we are currently trying to allocate from the quota, false if not */
  bool allocating;
  /* True if we are currently trying to add ourselves to the non-free quota
     list, false otherwise */
  bool added_to_free_pool;

  /* Reclaimers: index 0 is the benign reclaimer, 1 is the destructive reclaimer
   */
  grpc_closure *reclaimers[2];
  /* Reclaimers just posted: once we're in the combiner lock, we'll move them
     to the array above */
  grpc_closure *new_reclaimers[2];
  /* Trampoline closures to finish reclamation and re-enter the quota combiner
     lock */
  grpc_closure post_reclaimer_closure[2];

  /* Closure to execute under the quota combiner to de-register and shutdown the
     resource user */
  grpc_closure destroy_closure;

  /* Links in the various grpc_rulist lists */
  grpc_resource_user_link links[GRPC_RULIST_COUNT];

  /* The name of this resource user, for debugging/tracing */
  char *name;
};

struct grpc_resource_quota {
  /* refcount */
  gpr_refcount refs;

  /* estimate of current memory usage
     scaled to the range [0..RESOURCE_USAGE_ESTIMATION_MAX] */
  gpr_atm memory_usage_estimation;

  /* Master combiner lock: all activity on a quota executes under this combiner
   * (so no mutex is needed for this data structure) */
  grpc_combiner *combiner;
  /* Size of the resource quota */
  int64_t size;
  /* Amount of free memory in the resource quota */
  int64_t free_pool;

  /* Has rq_step been scheduled to occur? */
  bool step_scheduled;
  /* Are we currently reclaiming memory */
  bool reclaiming;
  /* Closure around rq_step */
  grpc_closure rq_step_closure;
  /* Closure around rq_reclamation_done */
  grpc_closure rq_reclamation_done_closure;

  /* This is only really usable for debugging: it's always a stale pointer, but
     a stale pointer that might just be fresh enough to guide us to where the
     reclamation system is stuck */
  grpc_closure *debug_only_last_initiated_reclaimer;
  grpc_resource_user *debug_only_last_reclaimer_resource_user;

  /* Roots of all resource user lists */
  grpc_resource_user *roots[GRPC_RULIST_COUNT];

  char *name;
};

/*******************************************************************************
 * list management
 */

static void rulist_add_head(grpc_resource_user *resource_user,
                            grpc_rulist list) {
  grpc_resource_quota *resource_quota = resource_user->resource_quota;
  grpc_resource_user **root = &resource_quota->roots[list];
  if (*root == NULL) {
    *root = resource_user;
    resource_user->links[list].next = resource_user->links[list].prev =
        resource_user;
  } else {
    resource_user->links[list].next = *root;
    resource_user->links[list].prev = (*root)->links[list].prev;
    resource_user->links[list].next->links[list].prev =
        resource_user->links[list].prev->links[list].next = resource_user;
    *root = resource_user;
  }
}

static void rulist_add_tail(grpc_resource_user *resource_user,
                            grpc_rulist list) {
  grpc_resource_quota *resource_quota = resource_user->resource_quota;
  grpc_resource_user **root = &resource_quota->roots[list];
  if (*root == NULL) {
    *root = resource_user;
    resource_user->links[list].next = resource_user->links[list].prev =
        resource_user;
  } else {
    resource_user->links[list].next = (*root)->links[list].next;
    resource_user->links[list].prev = *root;
    resource_user->links[list].next->links[list].prev =
        resource_user->links[list].prev->links[list].next = resource_user;
  }
}

static bool rulist_empty(grpc_resource_quota *resource_quota,
                         grpc_rulist list) {
  return resource_quota->roots[list] == NULL;
}

static grpc_resource_user *rulist_pop_head(grpc_resource_quota *resource_quota,
                                           grpc_rulist list) {
  grpc_resource_user **root = &resource_quota->roots[list];
  grpc_resource_user *resource_user = *root;
  if (resource_user == NULL) {
    return NULL;
  }
  if (resource_user->links[list].next == resource_user) {
    *root = NULL;
  } else {
    resource_user->links[list].next->links[list].prev =
        resource_user->links[list].prev;
    resource_user->links[list].prev->links[list].next =
        resource_user->links[list].next;
    *root = resource_user->links[list].next;
  }
  resource_user->links[list].next = resource_user->links[list].prev = NULL;
  return resource_user;
}

static void rulist_remove(grpc_resource_user *resource_user, grpc_rulist list) {
  if (resource_user->links[list].next == NULL) return;
  grpc_resource_quota *resource_quota = resource_user->resource_quota;
  if (resource_quota->roots[list] == resource_user) {
    resource_quota->roots[list] = resource_user->links[list].next;
    if (resource_quota->roots[list] == resource_user) {
      resource_quota->roots[list] = NULL;
    }
  }
  resource_user->links[list].next->links[list].prev =
      resource_user->links[list].prev;
  resource_user->links[list].prev->links[list].next =
      resource_user->links[list].next;
  resource_user->links[list].next = resource_user->links[list].prev = NULL;
}

/*******************************************************************************
 * resource quota state machine
 */

static bool rq_alloc(grpc_exec_ctx *exec_ctx,
                     grpc_resource_quota *resource_quota);
static bool rq_reclaim_from_per_user_free_pool(
    grpc_exec_ctx *exec_ctx, grpc_resource_quota *resource_quota);
static bool rq_reclaim(grpc_exec_ctx *exec_ctx,
                       grpc_resource_quota *resource_quota, bool destructive);

static void rq_step(grpc_exec_ctx *exec_ctx, void *rq, grpc_error *error) {
  grpc_resource_quota *resource_quota = rq;
  resource_quota->step_scheduled = false;
  do {
    if (rq_alloc(exec_ctx, resource_quota)) goto done;
  } while (rq_reclaim_from_per_user_free_pool(exec_ctx, resource_quota));

  if (!rq_reclaim(exec_ctx, resource_quota, false)) {
    rq_reclaim(exec_ctx, resource_quota, true);
  }

done:
  grpc_resource_quota_unref_internal(exec_ctx, resource_quota);
}

static void rq_step_sched(grpc_exec_ctx *exec_ctx,
                          grpc_resource_quota *resource_quota) {
  if (resource_quota->step_scheduled) return;
  resource_quota->step_scheduled = true;
  grpc_resource_quota_ref_internal(resource_quota);
  grpc_closure_sched(exec_ctx, &resource_quota->rq_step_closure,
                     GRPC_ERROR_NONE);
}

/* update the atomically available resource estimate - use no barriers since
   timeliness of delivery really doesn't matter much */
static void rq_update_estimate(grpc_resource_quota *resource_quota) {
  gpr_atm memory_usage_estimation = MEMORY_USAGE_ESTIMATION_MAX;
  if (resource_quota->size != 0) {
    memory_usage_estimation =
        GPR_CLAMP((gpr_atm)((1.0 -
                             ((double)resource_quota->free_pool) /
                                 ((double)resource_quota->size)) *
                            MEMORY_USAGE_ESTIMATION_MAX),
                  0, MEMORY_USAGE_ESTIMATION_MAX);
  }
  gpr_atm_no_barrier_store(&resource_quota->memory_usage_estimation,
                           memory_usage_estimation);
}

/* returns true if all allocations are completed */
static bool rq_alloc(grpc_exec_ctx *exec_ctx,
                     grpc_resource_quota *resource_quota) {
  grpc_resource_user *resource_user;
  while ((resource_user = rulist_pop_head(resource_quota,
                                          GRPC_RULIST_AWAITING_ALLOCATION))) {
    gpr_mu_lock(&resource_user->mu);
    if (resource_user->free_pool < 0 &&
        -resource_user->free_pool <= resource_quota->free_pool) {
      int64_t amt = -resource_user->free_pool;
      resource_user->free_pool = 0;
      resource_quota->free_pool -= amt;
      rq_update_estimate(resource_quota);
      if (grpc_resource_quota_trace) {
        gpr_log(GPR_DEBUG, "RQ %s %s: grant alloc %" PRId64
                           " bytes; rq_free_pool -> %" PRId64,
                resource_quota->name, resource_user->name, amt,
                resource_quota->free_pool);
      }
    } else if (grpc_resource_quota_trace && resource_user->free_pool >= 0) {
      gpr_log(GPR_DEBUG, "RQ %s %s: discard already satisfied alloc request",
              resource_quota->name, resource_user->name);
    }
    if (resource_user->free_pool >= 0) {
      resource_user->allocating = false;
      grpc_closure_list_sched(exec_ctx, &resource_user->on_allocated);
      gpr_mu_unlock(&resource_user->mu);
    } else {
      rulist_add_head(resource_user, GRPC_RULIST_AWAITING_ALLOCATION);
      gpr_mu_unlock(&resource_user->mu);
      return false;
    }
  }
  return true;
}

/* returns true if any memory could be reclaimed from buffers */
static bool rq_reclaim_from_per_user_free_pool(
    grpc_exec_ctx *exec_ctx, grpc_resource_quota *resource_quota) {
  grpc_resource_user *resource_user;
  while ((resource_user = rulist_pop_head(resource_quota,
                                          GRPC_RULIST_NON_EMPTY_FREE_POOL))) {
    gpr_mu_lock(&resource_user->mu);
    if (resource_user->free_pool > 0) {
      int64_t amt = resource_user->free_pool;
      resource_user->free_pool = 0;
      resource_quota->free_pool += amt;
      rq_update_estimate(resource_quota);
      if (grpc_resource_quota_trace) {
        gpr_log(GPR_DEBUG, "RQ %s %s: reclaim_from_per_user_free_pool %" PRId64
                           " bytes; rq_free_pool -> %" PRId64,
                resource_quota->name, resource_user->name, amt,
                resource_quota->free_pool);
      }
      gpr_mu_unlock(&resource_user->mu);
      return true;
    } else {
      gpr_mu_unlock(&resource_user->mu);
    }
  }
  return false;
}

/* returns true if reclamation is proceeding */
static bool rq_reclaim(grpc_exec_ctx *exec_ctx,
                       grpc_resource_quota *resource_quota, bool destructive) {
  if (resource_quota->reclaiming) return true;
  grpc_rulist list = destructive ? GRPC_RULIST_RECLAIMER_DESTRUCTIVE
                                 : GRPC_RULIST_RECLAIMER_BENIGN;
  grpc_resource_user *resource_user = rulist_pop_head(resource_quota, list);
  if (resource_user == NULL) return false;
  if (grpc_resource_quota_trace) {
    gpr_log(GPR_DEBUG, "RQ %s %s: initiate %s reclamation",
            resource_quota->name, resource_user->name,
            destructive ? "destructive" : "benign");
  }
  resource_quota->reclaiming = true;
  grpc_resource_quota_ref_internal(resource_quota);
  grpc_closure *c = resource_user->reclaimers[destructive];
  GPR_ASSERT(c);
  resource_quota->debug_only_last_reclaimer_resource_user = resource_user;
  resource_quota->debug_only_last_initiated_reclaimer = c;
  resource_user->reclaimers[destructive] = NULL;
  grpc_closure_run(exec_ctx, c, GRPC_ERROR_NONE);
  return true;
}

/*******************************************************************************
 * ru_slice: a slice implementation that is backed by a grpc_resource_user
 */

typedef struct {
  grpc_slice_refcount base;
  gpr_refcount refs;
  grpc_resource_user *resource_user;
  size_t size;
} ru_slice_refcount;

static void ru_slice_ref(void *p) {
  ru_slice_refcount *rc = p;
  gpr_ref(&rc->refs);
}

static void ru_slice_unref(grpc_exec_ctx *exec_ctx, void *p) {
  ru_slice_refcount *rc = p;
  if (gpr_unref(&rc->refs)) {
    grpc_resource_user_free(exec_ctx, rc->resource_user, rc->size);
    gpr_free(rc);
  }
}

static const grpc_slice_refcount_vtable ru_slice_vtable = {
    ru_slice_ref, ru_slice_unref, grpc_slice_default_eq_impl,
    grpc_slice_default_hash_impl};

static grpc_slice ru_slice_create(grpc_resource_user *resource_user,
                                  size_t size) {
  ru_slice_refcount *rc = gpr_malloc(sizeof(ru_slice_refcount) + size);
  rc->base.vtable = &ru_slice_vtable;
  rc->base.sub_refcount = &rc->base;
  gpr_ref_init(&rc->refs, 1);
  rc->resource_user = resource_user;
  rc->size = size;
  grpc_slice slice;
  slice.refcount = &rc->base;
  slice.data.refcounted.bytes = (uint8_t *)(rc + 1);
  slice.data.refcounted.length = size;
  return slice;
}

/*******************************************************************************
 * grpc_resource_quota internal implementation: resource user manipulation under
 * the combiner
 */

static void ru_allocate(grpc_exec_ctx *exec_ctx, void *ru, grpc_error *error) {
  grpc_resource_user *resource_user = ru;
  if (rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_AWAITING_ALLOCATION)) {
    rq_step_sched(exec_ctx, resource_user->resource_quota);
  }
  rulist_add_tail(resource_user, GRPC_RULIST_AWAITING_ALLOCATION);
}

static void ru_add_to_free_pool(grpc_exec_ctx *exec_ctx, void *ru,
                                grpc_error *error) {
  grpc_resource_user *resource_user = ru;
  if (!rulist_empty(resource_user->resource_quota,
                    GRPC_RULIST_AWAITING_ALLOCATION) &&
      rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_NON_EMPTY_FREE_POOL)) {
    rq_step_sched(exec_ctx, resource_user->resource_quota);
  }
  rulist_add_tail(resource_user, GRPC_RULIST_NON_EMPTY_FREE_POOL);
}

static bool ru_post_reclaimer(grpc_exec_ctx *exec_ctx,
                              grpc_resource_user *resource_user,
                              bool destructive) {
  grpc_closure *closure = resource_user->new_reclaimers[destructive];
  GPR_ASSERT(closure != NULL);
  resource_user->new_reclaimers[destructive] = NULL;
  GPR_ASSERT(resource_user->reclaimers[destructive] == NULL);
  if (gpr_atm_acq_load(&resource_user->shutdown) > 0) {
    grpc_closure_sched(exec_ctx, closure, GRPC_ERROR_CANCELLED);
    return false;
  }
  resource_user->reclaimers[destructive] = closure;
  return true;
}

static void ru_post_benign_reclaimer(grpc_exec_ctx *exec_ctx, void *ru,
                                     grpc_error *error) {
  grpc_resource_user *resource_user = ru;
  if (!ru_post_reclaimer(exec_ctx, resource_user, false)) return;
  if (!rulist_empty(resource_user->resource_quota,
                    GRPC_RULIST_AWAITING_ALLOCATION) &&
      rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_NON_EMPTY_FREE_POOL) &&
      rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_RECLAIMER_BENIGN)) {
    rq_step_sched(exec_ctx, resource_user->resource_quota);
  }
  rulist_add_tail(resource_user, GRPC_RULIST_RECLAIMER_BENIGN);
}

static void ru_post_destructive_reclaimer(grpc_exec_ctx *exec_ctx, void *ru,
                                          grpc_error *error) {
  grpc_resource_user *resource_user = ru;
  if (!ru_post_reclaimer(exec_ctx, resource_user, true)) return;
  if (!rulist_empty(resource_user->resource_quota,
                    GRPC_RULIST_AWAITING_ALLOCATION) &&
      rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_NON_EMPTY_FREE_POOL) &&
      rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_RECLAIMER_BENIGN) &&
      rulist_empty(resource_user->resource_quota,
                   GRPC_RULIST_RECLAIMER_DESTRUCTIVE)) {
    rq_step_sched(exec_ctx, resource_user->resource_quota);
  }
  rulist_add_tail(resource_user, GRPC_RULIST_RECLAIMER_DESTRUCTIVE);
}

static void ru_shutdown(grpc_exec_ctx *exec_ctx, void *ru, grpc_error *error) {
  grpc_resource_user *resource_user = ru;
  grpc_closure_sched(exec_ctx, resource_user->reclaimers[0],
                     GRPC_ERROR_CANCELLED);
  grpc_closure_sched(exec_ctx, resource_user->reclaimers[1],
                     GRPC_ERROR_CANCELLED);
  resource_user->reclaimers[0] = NULL;
  resource_user->reclaimers[1] = NULL;
  rulist_remove(resource_user, GRPC_RULIST_RECLAIMER_BENIGN);
  rulist_remove(resource_user, GRPC_RULIST_RECLAIMER_DESTRUCTIVE);
}

static void ru_destroy(grpc_exec_ctx *exec_ctx, void *ru, grpc_error *error) {
  grpc_resource_user *resource_user = ru;
  GPR_ASSERT(gpr_atm_no_barrier_load(&resource_user->refs) == 0);
  for (int i = 0; i < GRPC_RULIST_COUNT; i++) {
    rulist_remove(resource_user, (grpc_rulist)i);
  }
  grpc_closure_sched(exec_ctx, resource_user->reclaimers[0],
                     GRPC_ERROR_CANCELLED);
  grpc_closure_sched(exec_ctx, resource_user->reclaimers[1],
                     GRPC_ERROR_CANCELLED);
  if (resource_user->free_pool != 0) {
    resource_user->resource_quota->free_pool += resource_user->free_pool;
    rq_step_sched(exec_ctx, resource_user->resource_quota);
  }
  grpc_resource_quota_unref_internal(exec_ctx, resource_user->resource_quota);
  gpr_mu_destroy(&resource_user->mu);
  gpr_free(resource_user->name);
  gpr_free(resource_user);
}

static void ru_allocated_slices(grpc_exec_ctx *exec_ctx, void *arg,
                                grpc_error *error) {
  grpc_resource_user_slice_allocator *slice_allocator = arg;
  if (error == GRPC_ERROR_NONE) {
    for (size_t i = 0; i < slice_allocator->count; i++) {
      grpc_slice_buffer_add_indexed(
          slice_allocator->dest, ru_slice_create(slice_allocator->resource_user,
                                                 slice_allocator->length));
    }
  }
  grpc_closure_run(exec_ctx, &slice_allocator->on_done, GRPC_ERROR_REF(error));
}

/*******************************************************************************
 * grpc_resource_quota internal implementation: quota manipulation under the
 * combiner
 */

typedef struct {
  int64_t size;
  grpc_resource_quota *resource_quota;
  grpc_closure closure;
} rq_resize_args;

static void rq_resize(grpc_exec_ctx *exec_ctx, void *args, grpc_error *error) {
  rq_resize_args *a = args;
  int64_t delta = a->size - a->resource_quota->size;
  a->resource_quota->size += delta;
  a->resource_quota->free_pool += delta;
  rq_update_estimate(a->resource_quota);
  rq_step_sched(exec_ctx, a->resource_quota);
  grpc_resource_quota_unref_internal(exec_ctx, a->resource_quota);
  gpr_free(a);
}

static void rq_reclamation_done(grpc_exec_ctx *exec_ctx, void *rq,
                                grpc_error *error) {
  grpc_resource_quota *resource_quota = rq;
  resource_quota->reclaiming = false;
  rq_step_sched(exec_ctx, resource_quota);
  grpc_resource_quota_unref_internal(exec_ctx, resource_quota);
}

/*******************************************************************************
 * grpc_resource_quota api
 */

/* Public API */
grpc_resource_quota *grpc_resource_quota_create(const char *name) {
  grpc_resource_quota *resource_quota = gpr_malloc(sizeof(*resource_quota));
  gpr_ref_init(&resource_quota->refs, 1);
  resource_quota->combiner = grpc_combiner_create(NULL);
  resource_quota->free_pool = INT64_MAX;
  resource_quota->size = INT64_MAX;
  resource_quota->step_scheduled = false;
  resource_quota->reclaiming = false;
  gpr_atm_no_barrier_store(&resource_quota->memory_usage_estimation, 0);
  if (name != NULL) {
    resource_quota->name = gpr_strdup(name);
  } else {
    gpr_asprintf(&resource_quota->name, "anonymous_pool_%" PRIxPTR,
                 (intptr_t)resource_quota);
  }
  grpc_closure_init(
      &resource_quota->rq_step_closure, rq_step, resource_quota,
      grpc_combiner_finally_scheduler(resource_quota->combiner, true));
  grpc_closure_init(&resource_quota->rq_reclamation_done_closure,
                    rq_reclamation_done, resource_quota,
                    grpc_combiner_scheduler(resource_quota->combiner, false));
  for (int i = 0; i < GRPC_RULIST_COUNT; i++) {
    resource_quota->roots[i] = NULL;
  }
  return resource_quota;
}

void grpc_resource_quota_unref_internal(grpc_exec_ctx *exec_ctx,
                                        grpc_resource_quota *resource_quota) {
  if (gpr_unref(&resource_quota->refs)) {
    GRPC_COMBINER_UNREF(exec_ctx, resource_quota->combiner, "resource_quota");
    gpr_free(resource_quota->name);
    gpr_free(resource_quota);
  }
}

/* Public API */
void grpc_resource_quota_unref(grpc_resource_quota *resource_quota) {
  grpc_exec_ctx exec_ctx = GRPC_EXEC_CTX_INIT;
  grpc_resource_quota_unref_internal(&exec_ctx, resource_quota);
  grpc_exec_ctx_finish(&exec_ctx);
}

grpc_resource_quota *grpc_resource_quota_ref_internal(
    grpc_resource_quota *resource_quota) {
  gpr_ref(&resource_quota->refs);
  return resource_quota;
}

/* Public API */
void grpc_resource_quota_ref(grpc_resource_quota *resource_quota) {
  grpc_resource_quota_ref_internal(resource_quota);
}

double grpc_resource_quota_get_memory_pressure(
    grpc_resource_quota *resource_quota) {
  return ((double)(gpr_atm_no_barrier_load(
             &resource_quota->memory_usage_estimation))) /
         ((double)MEMORY_USAGE_ESTIMATION_MAX);
}

/* Public API */
void grpc_resource_quota_resize(grpc_resource_quota *resource_quota,
                                size_t size) {
  grpc_exec_ctx exec_ctx = GRPC_EXEC_CTX_INIT;
  rq_resize_args *a = gpr_malloc(sizeof(*a));
  a->resource_quota = grpc_resource_quota_ref_internal(resource_quota);
  a->size = (int64_t)size;
  grpc_closure_init(&a->closure, rq_resize, a, grpc_schedule_on_exec_ctx);
  grpc_closure_sched(&exec_ctx, &a->closure, GRPC_ERROR_NONE);
  grpc_exec_ctx_finish(&exec_ctx);
}

/*******************************************************************************
 * grpc_resource_user channel args api
 */

grpc_resource_quota *grpc_resource_quota_from_channel_args(
    const grpc_channel_args *channel_args) {
  for (size_t i = 0; i < channel_args->num_args; i++) {
    if (0 == strcmp(channel_args->args[i].key, GRPC_ARG_RESOURCE_QUOTA)) {
      if (channel_args->args[i].type == GRPC_ARG_POINTER) {
        return grpc_resource_quota_ref_internal(
            channel_args->args[i].value.pointer.p);
      } else {
        gpr_log(GPR_DEBUG, GRPC_ARG_RESOURCE_QUOTA " should be a pointer");
      }
    }
  }
  return grpc_resource_quota_create(NULL);
}

static void *rq_copy(void *rq) {
  grpc_resource_quota_ref(rq);
  return rq;
}

static void rq_destroy(grpc_exec_ctx *exec_ctx, void *rq) {
  grpc_resource_quota_unref_internal(exec_ctx, rq);
}

static int rq_cmp(void *a, void *b) { return GPR_ICMP(a, b); }

const grpc_arg_pointer_vtable *grpc_resource_quota_arg_vtable(void) {
  static const grpc_arg_pointer_vtable vtable = {rq_copy, rq_destroy, rq_cmp};
  return &vtable;
}

/*******************************************************************************
 * grpc_resource_user api
 */

grpc_resource_user *grpc_resource_user_create(
    grpc_resource_quota *resource_quota, const char *name) {
  grpc_resource_user *resource_user = gpr_malloc(sizeof(*resource_user));
  resource_user->resource_quota =
      grpc_resource_quota_ref_internal(resource_quota);
  grpc_closure_init(&resource_user->allocate_closure, &ru_allocate,
                    resource_user,
                    grpc_combiner_scheduler(resource_quota->combiner, false));
  grpc_closure_init(&resource_user->add_to_free_pool_closure,
                    &ru_add_to_free_pool, resource_user,
                    grpc_combiner_scheduler(resource_quota->combiner, false));
  grpc_closure_init(&resource_user->post_reclaimer_closure[0],
                    &ru_post_benign_reclaimer, resource_user,
                    grpc_combiner_scheduler(resource_quota->combiner, false));
  grpc_closure_init(&resource_user->post_reclaimer_closure[1],
                    &ru_post_destructive_reclaimer, resource_user,
                    grpc_combiner_scheduler(resource_quota->combiner, false));
  grpc_closure_init(&resource_user->destroy_closure, &ru_destroy, resource_user,
                    grpc_combiner_scheduler(resource_quota->combiner, false));
  gpr_mu_init(&resource_user->mu);
  gpr_atm_rel_store(&resource_user->refs, 1);
  gpr_atm_rel_store(&resource_user->shutdown, 0);
  resource_user->free_pool = 0;
  grpc_closure_list_init(&resource_user->on_allocated);
  resource_user->allocating = false;
  resource_user->added_to_free_pool = false;
  resource_user->reclaimers[0] = NULL;
  resource_user->reclaimers[1] = NULL;
  resource_user->new_reclaimers[0] = NULL;
  resource_user->new_reclaimers[1] = NULL;
  for (int i = 0; i < GRPC_RULIST_COUNT; i++) {
    resource_user->links[i].next = resource_user->links[i].prev = NULL;
  }
  if (name != NULL) {
    resource_user->name = gpr_strdup(name);
  } else {
    gpr_asprintf(&resource_user->name, "anonymous_resource_user_%" PRIxPTR,
                 (intptr_t)resource_user);
  }
  return resource_user;
}

grpc_resource_quota *grpc_resource_user_quota(
    grpc_resource_user *resource_user) {
  return resource_user->resource_quota;
}

static void ru_ref_by(grpc_resource_user *resource_user, gpr_atm amount) {
  GPR_ASSERT(amount > 0);
  GPR_ASSERT(gpr_atm_no_barrier_fetch_add(&resource_user->refs, amount) != 0);
}

static void ru_unref_by(grpc_exec_ctx *exec_ctx,
                        grpc_resource_user *resource_user, gpr_atm amount) {
  GPR_ASSERT(amount > 0);
  gpr_atm old = gpr_atm_full_fetch_add(&resource_user->refs, -amount);
  GPR_ASSERT(old >= amount);
  if (old == amount) {
    grpc_closure_sched(exec_ctx, &resource_user->destroy_closure,
                       GRPC_ERROR_NONE);
  }
}

void grpc_resource_user_ref(grpc_resource_user *resource_user) {
  ru_ref_by(resource_user, 1);
}

void grpc_resource_user_unref(grpc_exec_ctx *exec_ctx,
                              grpc_resource_user *resource_user) {
  ru_unref_by(exec_ctx, resource_user, 1);
}

void grpc_resource_user_shutdown(grpc_exec_ctx *exec_ctx,
                                 grpc_resource_user *resource_user) {
  if (gpr_atm_full_fetch_add(&resource_user->shutdown, 1) == 0) {
    grpc_closure_sched(exec_ctx,
                       grpc_closure_create(
                           ru_shutdown, resource_user,
                           grpc_combiner_scheduler(
                               resource_user->resource_quota->combiner, false)),
                       GRPC_ERROR_NONE);
  }
}

void grpc_resource_user_alloc(grpc_exec_ctx *exec_ctx,
                              grpc_resource_user *resource_user, size_t size,
                              grpc_closure *optional_on_done) {
  gpr_mu_lock(&resource_user->mu);
  ru_ref_by(resource_user, (gpr_atm)size);
  resource_user->free_pool -= (int64_t)size;
  if (grpc_resource_quota_trace) {
    gpr_log(GPR_DEBUG, "RQ %s %s: alloc %" PRIdPTR "; free_pool -> %" PRId64,
            resource_user->resource_quota->name, resource_user->name, size,
            resource_user->free_pool);
  }
  if (resource_user->free_pool < 0) {
    grpc_closure_list_append(&resource_user->on_allocated, optional_on_done,
                             GRPC_ERROR_NONE);
    if (!resource_user->allocating) {
      resource_user->allocating = true;
      grpc_closure_sched(exec_ctx, &resource_user->allocate_closure,
                         GRPC_ERROR_NONE);
    }
  } else {
    grpc_closure_sched(exec_ctx, optional_on_done, GRPC_ERROR_NONE);
  }
  gpr_mu_unlock(&resource_user->mu);
}

void grpc_resource_user_free(grpc_exec_ctx *exec_ctx,
                             grpc_resource_user *resource_user, size_t size) {
  gpr_mu_lock(&resource_user->mu);
  bool was_zero_or_negative = resource_user->free_pool <= 0;
  resource_user->free_pool += (int64_t)size;
  if (grpc_resource_quota_trace) {
    gpr_log(GPR_DEBUG, "RQ %s %s: free %" PRIdPTR "; free_pool -> %" PRId64,
            resource_user->resource_quota->name, resource_user->name, size,
            resource_user->free_pool);
  }
  bool is_bigger_than_zero = resource_user->free_pool > 0;
  if (is_bigger_than_zero && was_zero_or_negative &&
      !resource_user->added_to_free_pool) {
    resource_user->added_to_free_pool = true;
    grpc_closure_sched(exec_ctx, &resource_user->add_to_free_pool_closure,
                       GRPC_ERROR_NONE);
  }
  gpr_mu_unlock(&resource_user->mu);
  ru_unref_by(exec_ctx, resource_user, (gpr_atm)size);
}

void grpc_resource_user_post_reclaimer(grpc_exec_ctx *exec_ctx,
                                       grpc_resource_user *resource_user,
                                       bool destructive,
                                       grpc_closure *closure) {
  GPR_ASSERT(resource_user->new_reclaimers[destructive] == NULL);
  resource_user->new_reclaimers[destructive] = closure;
  grpc_closure_sched(exec_ctx,
                     &resource_user->post_reclaimer_closure[destructive],
                     GRPC_ERROR_NONE);
}

void grpc_resource_user_finish_reclamation(grpc_exec_ctx *exec_ctx,
                                           grpc_resource_user *resource_user) {
  if (grpc_resource_quota_trace) {
    gpr_log(GPR_DEBUG, "RQ %s %s: reclamation complete",
            resource_user->resource_quota->name, resource_user->name);
  }
  grpc_closure_sched(
      exec_ctx, &resource_user->resource_quota->rq_reclamation_done_closure,
      GRPC_ERROR_NONE);
}

void grpc_resource_user_slice_allocator_init(
    grpc_resource_user_slice_allocator *slice_allocator,
    grpc_resource_user *resource_user, grpc_iomgr_cb_func cb, void *p) {
  grpc_closure_init(&slice_allocator->on_allocated, ru_allocated_slices,
                    slice_allocator, grpc_schedule_on_exec_ctx);
  grpc_closure_init(&slice_allocator->on_done, cb, p,
                    grpc_schedule_on_exec_ctx);
  slice_allocator->resource_user = resource_user;
}

void grpc_resource_user_alloc_slices(
    grpc_exec_ctx *exec_ctx,
    grpc_resource_user_slice_allocator *slice_allocator, size_t length,
    size_t count, grpc_slice_buffer *dest) {
  slice_allocator->length = length;
  slice_allocator->count = count;
  slice_allocator->dest = dest;
  grpc_resource_user_alloc(exec_ctx, slice_allocator->resource_user,
                           count * length, &slice_allocator->on_allocated);
}

grpc_slice grpc_resource_user_slice_malloc(grpc_exec_ctx *exec_ctx,
                                           grpc_resource_user *resource_user,
                                           size_t size) {
  grpc_resource_user_alloc(exec_ctx, resource_user, size, NULL);
  return ru_slice_create(resource_user, size);
}