From 19fcec84d8d7d21e796c7624e521b60d28ee21ed Mon Sep 17 00:00:00 2001
From: Daniel Baumann <daniel.baumann@progress-linux.org>
Date: Sun, 7 Apr 2024 20:45:59 +0200
Subject: Adding upstream version 16.2.11+ds.

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
---
 src/osd/PrimaryLogPG.cc | 15470 ++++++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 15470 insertions(+)
 create mode 100644 src/osd/PrimaryLogPG.cc

(limited to 'src/osd/PrimaryLogPG.cc')

diff --git a/src/osd/PrimaryLogPG.cc b/src/osd/PrimaryLogPG.cc
new file mode 100644
index 000000000..c1673bf70
--- /dev/null
+++ b/src/osd/PrimaryLogPG.cc
@@ -0,0 +1,15470 @@
+// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
+// vim: ts=8 sw=2 smarttab
+/*
+ * Ceph - scalable distributed file system
+ *
+ * Copyright (C) 2004-2006 Sage Weil <sage@newdream.net>
+ * Copyright (C) 2013,2014 Cloudwatt <libre.licensing@cloudwatt.com>
+ *
+ * Author: Loic Dachary <loic@dachary.org>
+ *
+ * This is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU Lesser General Public
+ * License version 2.1, as published by the Free Software
+ * Foundation.  See file COPYING.
+ *
+ */
+
+#include "boost/tuple/tuple.hpp"
+#include "boost/intrusive_ptr.hpp"
+#include "PG.h"
+#include "pg_scrubber.h"
+#include "PrimaryLogPG.h"
+#include "OSD.h"
+#include "PrimaryLogScrub.h"
+#include "OpRequest.h"
+#include "ScrubStore.h"
+#include "Session.h"
+#include "objclass/objclass.h"
+#include "osd/ClassHandler.h"
+
+#include "cls/cas/cls_cas_ops.h"
+#include "common/ceph_crypto.h"
+#include "common/errno.h"
+#include "common/scrub_types.h"
+#include "common/perf_counters.h"
+
+#include "messages/MOSDOp.h"
+#include "messages/MOSDBackoff.h"
+#include "messages/MOSDPGTrim.h"
+#include "messages/MOSDPGScan.h"
+#include "messages/MOSDRepScrub.h"
+#include "messages/MOSDPGBackfill.h"
+#include "messages/MOSDPGBackfillRemove.h"
+#include "messages/MOSDPGUpdateLogMissing.h"
+#include "messages/MOSDPGUpdateLogMissingReply.h"
+#include "messages/MCommandReply.h"
+#include "messages/MOSDScrubReserve.h"
+#include "common/EventTrace.h"
+
+#include "common/config.h"
+#include "include/compat.h"
+#include "mon/MonClient.h"
+#include "osdc/Objecter.h"
+#include "json_spirit/json_spirit_value.h"
+#include "json_spirit/json_spirit_reader.h"
+#include "include/ceph_assert.h"  // json_spirit clobbers it
+#include "include/rados/rados_types.hpp"
+
+#ifdef WITH_LTTNG
+#include "tracing/osd.h"
+#else
+#define tracepoint(...)
+#endif
+
+#define dout_context cct
+#define dout_subsys ceph_subsys_osd
+#define DOUT_PREFIX_ARGS this, osd->whoami, get_osdmap()
+#undef dout_prefix
+#define dout_prefix _prefix(_dout, this)
+
+#include <sstream>
+#include <utility>
+
+#include <errno.h>
+#ifdef HAVE_JAEGER
+#include "common/tracer.h"
+#endif
+
+#include <common/CDC.h>
+
+MEMPOOL_DEFINE_OBJECT_FACTORY(PrimaryLogPG, replicatedpg, osd);
+
+using std::list;
+using std::ostream;
+using std::pair;
+using std::make_pair;
+using std::map;
+using std::ostringstream;
+using std::set;
+using std::string;
+using std::string_view;
+using std::stringstream;
+using std::unique_ptr;
+using std::vector;
+
+using ceph::bufferlist;
+using ceph::bufferptr;
+using ceph::Formatter;
+using ceph::decode;
+using ceph::decode_noclear;
+using ceph::encode;
+using ceph::encode_destructively;
+
+using namespace ceph::osd::scheduler;
+using TOPNSPC::common::cmd_getval;
+
+template <typename T>
+static ostream& _prefix(std::ostream *_dout, T *pg) {
+  return pg->gen_prefix(*_dout);
+}
+
+/**
+ * The CopyCallback class defines an interface for completions to the
+ * copy_start code. Users of the copy infrastructure must implement
+ * one and give an instance of the class to start_copy.
+ *
+ * The implementer is responsible for making sure that the CopyCallback
+ * can associate itself with the correct copy operation.
+ */
+class PrimaryLogPG::CopyCallback : public GenContext<CopyCallbackResults> {
+protected:
+  CopyCallback() {}
+  /**
+   * results.get<0>() is the return code: 0 for success; -ECANCELED if
+   * the operation was cancelled by the local OSD; -errno for other issues.
+   * results.get<1>() is a pointer to a CopyResults object, which you are
+   * responsible for deleting.
+   */
+  void finish(CopyCallbackResults results_) override = 0;
+
+public:
+  /// Provide the final size of the copied object to the CopyCallback
+  ~CopyCallback() override {}
+};
+
+template <typename T>
+class PrimaryLogPG::BlessedGenContext : public GenContext<T> {
+  PrimaryLogPGRef pg;
+  unique_ptr<GenContext<T>> c;
+  epoch_t e;
+public:
+  BlessedGenContext(PrimaryLogPG *pg, GenContext<T> *c, epoch_t e)
+    : pg(pg), c(c), e(e) {}
+  void finish(T t) override {
+    std::scoped_lock locker{*pg};
+    if (pg->pg_has_reset_since(e))
+      c.reset();
+    else
+      c.release()->complete(t);
+  }
+  bool sync_finish(T t) {
+    // we assume here all blessed/wrapped Contexts can complete synchronously.
+    c.release()->complete(t);
+    return true;
+  }
+};
+
+GenContext<ThreadPool::TPHandle&> *PrimaryLogPG::bless_gencontext(
+  GenContext<ThreadPool::TPHandle&> *c) {
+  return new BlessedGenContext<ThreadPool::TPHandle&>(
+    this, c, get_osdmap_epoch());
+}
+
+template <typename T>
+class PrimaryLogPG::UnlockedBlessedGenContext : public GenContext<T> {
+  PrimaryLogPGRef pg;
+  unique_ptr<GenContext<T>> c;
+  epoch_t e;
+public:
+  UnlockedBlessedGenContext(PrimaryLogPG *pg, GenContext<T> *c, epoch_t e)
+    : pg(pg), c(c), e(e) {}
+  void finish(T t) override {
+    if (pg->pg_has_reset_since(e))
+      c.reset();
+    else
+      c.release()->complete(t);
+  }
+  bool sync_finish(T t) {
+    // we assume here all blessed/wrapped Contexts can complete synchronously.
+    c.release()->complete(t);
+    return true;
+  }
+};
+
+GenContext<ThreadPool::TPHandle&> *PrimaryLogPG::bless_unlocked_gencontext(
+  GenContext<ThreadPool::TPHandle&> *c) {
+  return new UnlockedBlessedGenContext<ThreadPool::TPHandle&>(
+    this, c, get_osdmap_epoch());
+}
+
+class PrimaryLogPG::BlessedContext : public Context {
+  PrimaryLogPGRef pg;
+  unique_ptr<Context> c;
+  epoch_t e;
+public:
+  BlessedContext(PrimaryLogPG *pg, Context *c, epoch_t e)
+    : pg(pg), c(c), e(e) {}
+  void finish(int r) override {
+    std::scoped_lock locker{*pg};
+    if (pg->pg_has_reset_since(e))
+      c.reset();
+    else
+      c.release()->complete(r);
+  }
+  bool sync_finish(int r) override {
+    // we assume here all blessed/wrapped Contexts can complete synchronously.
+    c.release()->complete(r);
+    return true;
+  }
+};
+
+Context *PrimaryLogPG::bless_context(Context *c) {
+  return new BlessedContext(this, c, get_osdmap_epoch());
+}
+
+class PrimaryLogPG::C_PG_ObjectContext : public Context {
+  PrimaryLogPGRef pg;
+  ObjectContext *obc;
+  public:
+  C_PG_ObjectContext(PrimaryLogPG *p, ObjectContext *o) :
+    pg(p), obc(o) {}
+  void finish(int r) override {
+    pg->object_context_destructor_callback(obc);
+  }
+};
+
+struct OnReadComplete : public Context {
+  PrimaryLogPG *pg;
+  PrimaryLogPG::OpContext *opcontext;
+  OnReadComplete(
+    PrimaryLogPG *pg,
+    PrimaryLogPG::OpContext *ctx) : pg(pg), opcontext(ctx) {}
+  void finish(int r) override {
+    opcontext->finish_read(pg);
+  }
+  ~OnReadComplete() override {}
+};
+
+class PrimaryLogPG::C_OSD_AppliedRecoveredObject : public Context {
+  PrimaryLogPGRef pg;
+  ObjectContextRef obc;
+  public:
+  C_OSD_AppliedRecoveredObject(PrimaryLogPG *p, ObjectContextRef o) :
+    pg(p), obc(o) {}
+  bool sync_finish(int r) override {
+    pg->_applied_recovered_object(obc);
+    return true;
+  }
+  void finish(int r) override {
+    std::scoped_lock locker{*pg};
+    pg->_applied_recovered_object(obc);
+  }
+};
+
+class PrimaryLogPG::C_OSD_CommittedPushedObject : public Context {
+  PrimaryLogPGRef pg;
+  epoch_t epoch;
+  eversion_t last_complete;
+  public:
+  C_OSD_CommittedPushedObject(
+    PrimaryLogPG *p, epoch_t epoch, eversion_t lc) :
+    pg(p), epoch(epoch), last_complete(lc) {
+  }
+  void finish(int r) override {
+    pg->_committed_pushed_object(epoch, last_complete);
+  }
+};
+
+class PrimaryLogPG::C_OSD_AppliedRecoveredObjectReplica : public Context {
+  PrimaryLogPGRef pg;
+  public:
+  explicit C_OSD_AppliedRecoveredObjectReplica(PrimaryLogPG *p) :
+    pg(p) {}
+  bool sync_finish(int r) override {
+    pg->_applied_recovered_object_replica();
+    return true;
+  }
+  void finish(int r) override {
+    std::scoped_lock locker{*pg};
+    pg->_applied_recovered_object_replica();
+  }
+};
+
+// OpContext
+void PrimaryLogPG::OpContext::start_async_reads(PrimaryLogPG *pg)
+{
+  inflightreads = 1;
+  list<pair<boost::tuple<uint64_t, uint64_t, unsigned>,
+	    pair<bufferlist*, Context*> > > in;
+  in.swap(pending_async_reads);
+  pg->pgbackend->objects_read_async(
+    obc->obs.oi.soid,
+    in,
+    new OnReadComplete(pg, this), pg->get_pool().fast_read);
+}
+void PrimaryLogPG::OpContext::finish_read(PrimaryLogPG *pg)
+{
+  ceph_assert(inflightreads > 0);
+  --inflightreads;
+  if (async_reads_complete()) {
+    ceph_assert(pg->in_progress_async_reads.size());
+    ceph_assert(pg->in_progress_async_reads.front().second == this);
+    pg->in_progress_async_reads.pop_front();
+
+    // Restart the op context now that all reads have been
+    // completed. Read failures will be handled by the op finisher
+    pg->execute_ctx(this);
+  }
+}
+
+class CopyFromCallback : public PrimaryLogPG::CopyCallback {
+public:
+  PrimaryLogPG::CopyResults *results = nullptr;
+  PrimaryLogPG::OpContext *ctx;
+  OSDOp &osd_op;
+  uint32_t truncate_seq;
+  uint64_t truncate_size;
+  bool have_truncate = false;
+
+  CopyFromCallback(PrimaryLogPG::OpContext *ctx, OSDOp &osd_op)
+    : ctx(ctx), osd_op(osd_op) {
+  }
+  ~CopyFromCallback() override {}
+
+  void finish(PrimaryLogPG::CopyCallbackResults results_) override {
+    results = results_.get<1>();
+    int r = results_.get<0>();
+
+    // Only use truncate_{seq,size} from the original object if the client
+    // did not sent us these parameters
+    if (!have_truncate) {
+      truncate_seq = results->truncate_seq;
+      truncate_size = results->truncate_size;
+    }
+
+    // for finish_copyfrom
+    ctx->user_at_version = results->user_version;
+
+    if (r >= 0) {
+      ctx->pg->execute_ctx(ctx);
+    } else {
+      if (r != -ECANCELED) { // on cancel just toss it out; client resends
+	if (ctx->op)
+	  ctx->pg->osd->reply_op_error(ctx->op, r);
+      } else if (results->should_requeue) {
+	if (ctx->op)
+	  ctx->pg->requeue_op(ctx->op);
+      }
+      ctx->pg->close_op_ctx(ctx);
+    }
+  }
+
+  bool is_temp_obj_used() {
+    return results->started_temp_obj;
+  }
+  uint64_t get_data_size() {
+    return results->object_size;
+  }
+  void set_truncate(uint32_t seq, uint64_t size) {
+    truncate_seq = seq;
+    truncate_size = size;
+    have_truncate = true;
+  }
+};
+
+struct CopyFromFinisher : public PrimaryLogPG::OpFinisher {
+  CopyFromCallback *copy_from_callback;
+
+  explicit CopyFromFinisher(CopyFromCallback *copy_from_callback)
+    : copy_from_callback(copy_from_callback) {
+  }
+
+  int execute() override {
+    // instance will be destructed after this method completes
+    copy_from_callback->ctx->pg->finish_copyfrom(copy_from_callback);
+    return 0;
+  }
+};
+
+// ======================
+// PGBackend::Listener
+
+void PrimaryLogPG::on_local_recover(
+  const hobject_t &hoid,
+  const ObjectRecoveryInfo &_recovery_info,
+  ObjectContextRef obc,
+  bool is_delete,
+  ObjectStore::Transaction *t
+  )
+{
+  dout(10) << __func__ << ": " << hoid << dendl;
+
+  ObjectRecoveryInfo recovery_info(_recovery_info);
+  clear_object_snap_mapping(t, hoid);
+  if (!is_delete && recovery_info.soid.is_snap()) {
+    OSDriver::OSTransaction _t(osdriver.get_transaction(t));
+    set<snapid_t> snaps;
+    dout(20) << " snapset " << recovery_info.ss << dendl;
+    auto p = recovery_info.ss.clone_snaps.find(hoid.snap);
+    if (p != recovery_info.ss.clone_snaps.end()) {
+      snaps.insert(p->second.begin(), p->second.end());
+      dout(20) << " snaps " << snaps << dendl;
+      snap_mapper.add_oid(
+	recovery_info.soid,
+	snaps,
+	&_t);
+    } else {
+      derr << __func__ << " " << hoid << " had no clone_snaps" << dendl;
+    }
+  }
+  if (!is_delete && recovery_state.get_pg_log().get_missing().is_missing(recovery_info.soid) &&
+      recovery_state.get_pg_log().get_missing().get_items().find(recovery_info.soid)->second.need > recovery_info.version) {
+    ceph_assert(is_primary());
+    const pg_log_entry_t *latest = recovery_state.get_pg_log().get_log().objects.find(recovery_info.soid)->second;
+    if (latest->op == pg_log_entry_t::LOST_REVERT &&
+	latest->reverting_to == recovery_info.version) {
+      dout(10) << " got old revert version " << recovery_info.version
+	       << " for " << *latest << dendl;
+      recovery_info.version = latest->version;
+      // update the attr to the revert event version
+      recovery_info.oi.prior_version = recovery_info.oi.version;
+      recovery_info.oi.version = latest->version;
+      bufferlist bl;
+      encode(recovery_info.oi, bl,
+	       get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+      ceph_assert(!pool.info.is_erasure());
+      t->setattr(coll, ghobject_t(recovery_info.soid), OI_ATTR, bl);
+      if (obc)
+	obc->attr_cache[OI_ATTR] = bl;
+    }
+  }
+
+  // keep track of active pushes for scrub
+  ++active_pushes;
+
+  recovery_state.recover_got(
+    recovery_info.soid,
+    recovery_info.version,
+    is_delete,
+    *t);
+
+  if (is_primary()) {
+    if (!is_delete) {
+      obc->obs.exists = true;
+
+      bool got = obc->get_recovery_read();
+      ceph_assert(got);
+
+      ceph_assert(recovering.count(obc->obs.oi.soid));
+      recovering[obc->obs.oi.soid] = obc;
+      obc->obs.oi = recovery_info.oi;  // may have been updated above
+    }
+
+    t->register_on_applied(new C_OSD_AppliedRecoveredObject(this, obc));
+
+    publish_stats_to_osd();
+    release_backoffs(hoid);
+    if (!is_unreadable_object(hoid)) {
+      auto unreadable_object_entry = waiting_for_unreadable_object.find(hoid);
+      if (unreadable_object_entry != waiting_for_unreadable_object.end()) {
+	dout(20) << " kicking unreadable waiters on " << hoid << dendl;
+	requeue_ops(unreadable_object_entry->second);
+	waiting_for_unreadable_object.erase(unreadable_object_entry);
+      }
+    }
+  } else {
+    t->register_on_applied(
+      new C_OSD_AppliedRecoveredObjectReplica(this));
+
+  }
+
+  t->register_on_commit(
+    new C_OSD_CommittedPushedObject(
+      this,
+      get_osdmap_epoch(),
+      info.last_complete));
+}
+
+void PrimaryLogPG::on_global_recover(
+  const hobject_t &soid,
+  const object_stat_sum_t &stat_diff,
+  bool is_delete)
+{
+  recovery_state.object_recovered(soid, stat_diff);
+  publish_stats_to_osd();
+  dout(10) << "pushed " << soid << " to all replicas" << dendl;
+  auto i = recovering.find(soid);
+  ceph_assert(i != recovering.end());
+
+  if (i->second && i->second->rwstate.recovery_read_marker) {
+    // recover missing won't have had an obc, but it gets filled in
+    // during on_local_recover
+    ceph_assert(i->second);
+    list<OpRequestRef> requeue_list;
+    i->second->drop_recovery_read(&requeue_list);
+    requeue_ops(requeue_list);
+  }
+
+  backfills_in_flight.erase(soid);
+
+  recovering.erase(i);
+  finish_recovery_op(soid);
+  release_backoffs(soid);
+  auto degraded_object_entry = waiting_for_degraded_object.find(soid);
+  if (degraded_object_entry != waiting_for_degraded_object.end()) {
+    dout(20) << " kicking degraded waiters on " << soid << dendl;
+    requeue_ops(degraded_object_entry->second);
+    waiting_for_degraded_object.erase(degraded_object_entry);
+  }
+  auto unreadable_object_entry = waiting_for_unreadable_object.find(soid);
+  if (unreadable_object_entry != waiting_for_unreadable_object.end()) {
+    dout(20) << " kicking unreadable waiters on " << soid << dendl;
+    requeue_ops(unreadable_object_entry->second);
+    waiting_for_unreadable_object.erase(unreadable_object_entry);
+  }
+  finish_degraded_object(soid);
+}
+
+void PrimaryLogPG::schedule_recovery_work(
+  GenContext<ThreadPool::TPHandle&> *c)
+{
+  osd->queue_recovery_context(this, c);
+}
+
+void PrimaryLogPG::replica_clear_repop_obc(
+  const vector<pg_log_entry_t> &logv,
+  ObjectStore::Transaction &t)
+{
+  for (auto &&e: logv) {
+    /* Have to blast all clones, they share a snapset */
+    object_contexts.clear_range(
+      e.soid.get_object_boundary(), e.soid.get_head());
+    ceph_assert(
+      snapset_contexts.find(e.soid.get_head()) ==
+      snapset_contexts.end());
+  }
+}
+
+bool PrimaryLogPG::should_send_op(
+  pg_shard_t peer,
+  const hobject_t &hoid) {
+  if (peer == get_primary())
+    return true;
+  ceph_assert(recovery_state.has_peer_info(peer));
+  bool should_send =
+      hoid.pool != (int64_t)info.pgid.pool() ||
+      hoid <= last_backfill_started ||
+      hoid <= recovery_state.get_peer_info(peer).last_backfill;
+  if (!should_send) {
+    ceph_assert(is_backfill_target(peer));
+    dout(10) << __func__ << " issue_repop shipping empty opt to osd." << peer
+             << ", object " << hoid
+             << " beyond std::max(last_backfill_started "
+             << ", peer_info[peer].last_backfill "
+             << recovery_state.get_peer_info(peer).last_backfill
+	     << ")" << dendl;
+    return should_send;
+  }
+  if (is_async_recovery_target(peer) &&
+      recovery_state.get_peer_missing(peer).is_missing(hoid)) {
+    should_send = false;
+    dout(10) << __func__ << " issue_repop shipping empty opt to osd." << peer
+             << ", object " << hoid
+             << " which is pending recovery in async_recovery_targets" << dendl;
+  }
+  return should_send;
+}
+
+
+ConnectionRef PrimaryLogPG::get_con_osd_cluster(
+  int peer, epoch_t from_epoch)
+{
+  return osd->get_con_osd_cluster(peer, from_epoch);
+}
+
+PerfCounters *PrimaryLogPG::get_logger()
+{
+  return osd->logger;
+}
+
+
+// ====================
+// missing objects
+
+bool PrimaryLogPG::is_missing_object(const hobject_t& soid) const
+{
+  return recovery_state.get_pg_log().get_missing().get_items().count(soid);
+}
+
+void PrimaryLogPG::maybe_kick_recovery(
+  const hobject_t &soid)
+{
+  eversion_t v;
+  bool work_started = false;
+  if (!recovery_state.get_missing_loc().needs_recovery(soid, &v))
+    return;
+
+  map<hobject_t, ObjectContextRef>::const_iterator p = recovering.find(soid);
+  if (p != recovering.end()) {
+    dout(7) << "object " << soid << " v " << v << ", already recovering." << dendl;
+  } else if (recovery_state.get_missing_loc().is_unfound(soid)) {
+    dout(7) << "object " << soid << " v " << v << ", is unfound." << dendl;
+  } else {
+    dout(7) << "object " << soid << " v " << v << ", recovering." << dendl;
+    PGBackend::RecoveryHandle *h = pgbackend->open_recovery_op();
+    if (is_missing_object(soid)) {
+      recover_missing(soid, v, CEPH_MSG_PRIO_HIGH, h);
+    } else if (recovery_state.get_missing_loc().is_deleted(soid)) {
+      prep_object_replica_deletes(soid, v, h, &work_started);
+    } else {
+      prep_object_replica_pushes(soid, v, h, &work_started);
+    }
+    pgbackend->run_recovery_op(h, CEPH_MSG_PRIO_HIGH);
+  }
+}
+
+void PrimaryLogPG::wait_for_unreadable_object(
+  const hobject_t& soid, OpRequestRef op)
+{
+  ceph_assert(is_unreadable_object(soid));
+  maybe_kick_recovery(soid);
+  waiting_for_unreadable_object[soid].push_back(op);
+  op->mark_delayed("waiting for missing object");
+}
+
+bool PrimaryLogPG::is_degraded_or_backfilling_object(const hobject_t& soid)
+{
+  /* The conditions below may clear (on_local_recover, before we queue
+   * the transaction) before we actually requeue the degraded waiters
+   * in on_global_recover after the transaction completes.
+   */
+  if (waiting_for_degraded_object.count(soid))
+    return true;
+  if (recovery_state.get_pg_log().get_missing().get_items().count(soid))
+    return true;
+  ceph_assert(!get_acting_recovery_backfill().empty());
+  for (set<pg_shard_t>::iterator i = get_acting_recovery_backfill().begin();
+       i != get_acting_recovery_backfill().end();
+       ++i) {
+    if (*i == get_primary()) continue;
+    pg_shard_t peer = *i;
+    auto peer_missing_entry = recovery_state.get_peer_missing().find(peer);
+    // If an object is missing on an async_recovery_target, return false.
+    // This will not block the op and the object is async recovered later.
+    if (peer_missing_entry != recovery_state.get_peer_missing().end() &&
+	peer_missing_entry->second.get_items().count(soid)) {
+      if (is_async_recovery_target(peer))
+	continue;
+      else
+	return true;
+    }
+    // Object is degraded if after last_backfill AND
+    // we are backfilling it
+    if (is_backfill_target(peer) &&
+        recovery_state.get_peer_info(peer).last_backfill <= soid &&
+	last_backfill_started >= soid &&
+	backfills_in_flight.count(soid))
+      return true;
+  }
+  return false;
+}
+
+bool PrimaryLogPG::is_degraded_on_async_recovery_target(const hobject_t& soid)
+{
+  for (auto &i: get_async_recovery_targets()) {
+    auto peer_missing_entry = recovery_state.get_peer_missing().find(i);
+    if (peer_missing_entry != recovery_state.get_peer_missing().end() &&
+        peer_missing_entry->second.get_items().count(soid)) {
+      dout(30) << __func__ << " " << soid << dendl;
+      return true;
+    }
+  }
+  return false;
+}
+
+void PrimaryLogPG::wait_for_degraded_object(const hobject_t& soid, OpRequestRef op)
+{
+  ceph_assert(is_degraded_or_backfilling_object(soid) || is_degraded_on_async_recovery_target(soid));
+
+  maybe_kick_recovery(soid);
+  waiting_for_degraded_object[soid].push_back(op);
+  op->mark_delayed("waiting for degraded object");
+}
+
+void PrimaryLogPG::block_write_on_full_cache(
+  const hobject_t& _oid, OpRequestRef op)
+{
+  const hobject_t oid = _oid.get_head();
+  dout(20) << __func__ << ": blocking object " << oid
+	   << " on full cache" << dendl;
+  objects_blocked_on_cache_full.insert(oid);
+  waiting_for_cache_not_full.push_back(op);
+  op->mark_delayed("waiting for cache not full");
+}
+
+void PrimaryLogPG::block_for_clean(
+  const hobject_t& oid, OpRequestRef op)
+{
+  dout(20) << __func__ << ": blocking object " << oid
+	   << " on primary repair" << dendl;
+  waiting_for_clean_to_primary_repair.push_back(op);
+  op->mark_delayed("waiting for clean to repair");
+}
+
+void PrimaryLogPG::block_write_on_snap_rollback(
+  const hobject_t& oid, ObjectContextRef obc, OpRequestRef op)
+{
+  dout(20) << __func__ << ": blocking object " << oid.get_head()
+	   << " on snap promotion " << obc->obs.oi.soid << dendl;
+  // otherwise, we'd have blocked in do_op
+  ceph_assert(oid.is_head());
+  ceph_assert(objects_blocked_on_snap_promotion.count(oid) == 0);
+  objects_blocked_on_snap_promotion[oid] = obc;
+  wait_for_blocked_object(obc->obs.oi.soid, op);
+}
+
+void PrimaryLogPG::block_write_on_degraded_snap(
+  const hobject_t& snap, OpRequestRef op)
+{
+  dout(20) << __func__ << ": blocking object " << snap.get_head()
+	   << " on degraded snap " << snap << dendl;
+  // otherwise, we'd have blocked in do_op
+  ceph_assert(objects_blocked_on_degraded_snap.count(snap.get_head()) == 0);
+  objects_blocked_on_degraded_snap[snap.get_head()] = snap.snap;
+  wait_for_degraded_object(snap, op);
+}
+
+bool PrimaryLogPG::maybe_await_blocked_head(
+  const hobject_t &hoid,
+  OpRequestRef op)
+{
+  ObjectContextRef obc;
+  obc = object_contexts.lookup(hoid.get_head());
+  if (obc) {
+    if (obc->is_blocked()) {
+      wait_for_blocked_object(obc->obs.oi.soid, op);
+      return true;
+    } else {
+      return false;
+    }
+  }
+  return false;
+}
+
+void PrimaryLogPG::wait_for_blocked_object(const hobject_t& soid, OpRequestRef op)
+{
+  dout(10) << __func__ << " " << soid << " " << op << dendl;
+  waiting_for_blocked_object[soid].push_back(op);
+  op->mark_delayed("waiting for blocked object");
+}
+
+void PrimaryLogPG::maybe_force_recovery()
+{
+  // no force if not in degraded/recovery/backfill states
+  if (!is_degraded() &&
+      !state_test(PG_STATE_RECOVERING |
+                  PG_STATE_RECOVERY_WAIT |
+		  PG_STATE_BACKFILLING |
+		  PG_STATE_BACKFILL_WAIT |
+		  PG_STATE_BACKFILL_TOOFULL))
+    return;
+
+  if (recovery_state.get_pg_log().get_log().approx_size() <
+      cct->_conf->osd_max_pg_log_entries *
+        cct->_conf->osd_force_recovery_pg_log_entries_factor)
+    return;
+
+  // find the oldest missing object
+  version_t min_version = recovery_state.get_pg_log().get_log().head.version;
+  hobject_t soid;
+  if (!recovery_state.get_pg_log().get_missing().get_rmissing().empty()) {
+    min_version = recovery_state.get_pg_log().get_missing().get_rmissing().begin()->first;
+    soid = recovery_state.get_pg_log().get_missing().get_rmissing().begin()->second;
+  }
+  ceph_assert(!get_acting_recovery_backfill().empty());
+  for (set<pg_shard_t>::iterator it = get_acting_recovery_backfill().begin();
+       it != get_acting_recovery_backfill().end();
+       ++it) {
+    if (*it == get_primary()) continue;
+    pg_shard_t peer = *it;
+    auto it_missing = recovery_state.get_peer_missing().find(peer);
+    if (it_missing != recovery_state.get_peer_missing().end() &&
+	!it_missing->second.get_rmissing().empty()) {
+      const auto& min_obj = recovery_state.get_peer_missing(peer).get_rmissing().begin();
+      dout(20) << __func__ << " peer " << peer << " min_version " << min_obj->first
+               << " oid " << min_obj->second << dendl;
+      if (min_version > min_obj->first) {
+        min_version = min_obj->first;
+        soid = min_obj->second;
+      }
+    }
+  }
+
+  // recover it
+  if (soid != hobject_t())
+    maybe_kick_recovery(soid);
+}
+
+bool PrimaryLogPG::check_laggy(OpRequestRef& op)
+{
+  if (!HAVE_FEATURE(recovery_state.get_min_upacting_features(),
+		    SERVER_OCTOPUS)) {
+    dout(20) << __func__ << " not all upacting has SERVER_OCTOPUS" << dendl;
+    return true;
+  }
+  if (state_test(PG_STATE_WAIT)) {
+    dout(10) << __func__ << " PG is WAIT state" << dendl;
+  } else if (!state_test(PG_STATE_LAGGY)) {
+    auto mnow = osd->get_mnow();
+    auto ru = recovery_state.get_readable_until();
+    if (mnow <= ru) {
+      // not laggy
+      return true;
+    }
+    dout(10) << __func__
+	     << " mnow " << mnow
+	     << " > readable_until " << ru << dendl;
+
+    if (!is_primary()) {
+      osd->reply_op_error(op, -EAGAIN);
+      return false;
+    }
+
+    // go to laggy state
+    state_set(PG_STATE_LAGGY);
+    publish_stats_to_osd();
+  }
+  dout(10) << __func__ << " not readable" << dendl;
+  waiting_for_readable.push_back(op);
+  op->mark_delayed("waiting for readable");
+  return false;
+}
+
+bool PrimaryLogPG::check_laggy_requeue(OpRequestRef& op)
+{
+  if (!HAVE_FEATURE(recovery_state.get_min_upacting_features(),
+		    SERVER_OCTOPUS)) {
+    return true;
+  }
+  if (!state_test(PG_STATE_WAIT) && !state_test(PG_STATE_LAGGY)) {
+    return true; // not laggy
+  }
+  dout(10) << __func__ << " not readable" << dendl;
+  waiting_for_readable.push_front(op);
+  op->mark_delayed("waiting for readable");
+  return false;
+}
+
+void PrimaryLogPG::recheck_readable()
+{
+  if (!is_wait() && !is_laggy()) {
+    dout(20) << __func__ << " wasn't wait or laggy" << dendl;
+    return;
+  }
+  auto mnow = osd->get_mnow();
+  bool pub = false;
+  if (is_wait()) {
+    auto prior_readable_until_ub = recovery_state.get_prior_readable_until_ub();
+    if (mnow < prior_readable_until_ub) {
+      dout(10) << __func__ << " still wait (mnow " << mnow
+	       << " < prior_readable_until_ub " << prior_readable_until_ub
+	       << ")" << dendl;
+    } else {
+      dout(10) << __func__ << " no longer wait (mnow " << mnow
+	       << " >= prior_readable_until_ub " << prior_readable_until_ub
+	       << ")" << dendl;
+      state_clear(PG_STATE_WAIT);
+      recovery_state.clear_prior_readable_until_ub();
+      pub = true;
+    }
+  }
+  if (is_laggy()) {
+    auto ru = recovery_state.get_readable_until();
+    if (ru == ceph::signedspan::zero()) {
+      dout(10) << __func__ << " still laggy (mnow " << mnow
+	       << ", readable_until zero)" << dendl;
+    } else if (mnow >= ru) {
+      dout(10) << __func__ << " still laggy (mnow " << mnow
+	       << " >= readable_until " << ru << ")" << dendl;
+    } else {
+      dout(10) << __func__ << " no longer laggy (mnow " << mnow
+	       << " < readable_until " << ru << ")" << dendl;
+      state_clear(PG_STATE_LAGGY);
+      pub = true;
+    }
+  }
+  if (pub) {
+    publish_stats_to_osd();
+  }
+  if (!is_laggy() && !is_wait()) {
+    requeue_ops(waiting_for_readable);
+  }
+}
+
+bool PrimaryLogPG::pgls_filter(const PGLSFilter& filter, const hobject_t& sobj)
+{
+  bufferlist bl;
+
+  // If filter has expressed an interest in an xattr, load it.
+  if (!filter.get_xattr().empty()) {
+    int ret = pgbackend->objects_get_attr(
+      sobj,
+      filter.get_xattr(),
+      &bl);
+    dout(0) << "getattr (sobj=" << sobj << ", attr=" << filter.get_xattr() << ") returned " << ret << dendl;
+    if (ret < 0) {
+      if (ret != -ENODATA || filter.reject_empty_xattr()) {
+        return false;
+      }
+    }
+  }
+
+  return filter.filter(sobj, bl);
+}
+
+std::pair<int, std::unique_ptr<const PGLSFilter>>
+PrimaryLogPG::get_pgls_filter(bufferlist::const_iterator& iter)
+{
+  string type;
+  // storing non-const PGLSFilter for the sake of ::init()
+  std::unique_ptr<PGLSFilter> filter;
+
+  try {
+    decode(type, iter);
+  }
+  catch (ceph::buffer::error& e) {
+    return { -EINVAL, nullptr };
+  }
+
+  if (type.compare("plain") == 0) {
+    filter = std::make_unique<PGLSPlainFilter>();
+  } else {
+    std::size_t dot = type.find(".");
+    if (dot == std::string::npos || dot == 0 || dot == type.size() - 1) {
+      return { -EINVAL, nullptr };
+    }
+
+    const std::string class_name = type.substr(0, dot);
+    const std::string filter_name = type.substr(dot + 1);
+    ClassHandler::ClassData *cls = NULL;
+    int r = ClassHandler::get_instance().open_class(class_name, &cls);
+    if (r != 0) {
+      derr << "Error opening class '" << class_name << "': "
+           << cpp_strerror(r) << dendl;
+      if (r != -EPERM) // propagate permission error
+        r = -EINVAL;
+      return { r, nullptr };
+    } else {
+      ceph_assert(cls);
+    }
+
+    ClassHandler::ClassFilter *class_filter = cls->get_filter(filter_name);
+    if (class_filter == NULL) {
+      derr << "Error finding filter '" << filter_name << "' in class "
+           << class_name << dendl;
+      return { -EINVAL, nullptr };
+    }
+    filter.reset(class_filter->fn());
+    if (!filter) {
+      // Object classes are obliged to return us something, but let's
+      // give an error rather than asserting out.
+      derr << "Buggy class " << class_name << " failed to construct "
+              "filter " << filter_name << dendl;
+      return { -EINVAL, nullptr };
+    }
+  }
+
+  ceph_assert(filter);
+  int r = filter->init(iter);
+  if (r < 0) {
+    derr << "Error initializing filter " << type << ": "
+         << cpp_strerror(r) << dendl;
+    return { -EINVAL, nullptr };
+  } else {
+    // Successfully constructed and initialized, return it.
+    return std::make_pair(0, std::move(filter));
+  }
+}
+
+
+// ==========================================================
+
+void PrimaryLogPG::do_command(
+  const string_view& orig_prefix,
+  const cmdmap_t& cmdmap,
+  const bufferlist& idata,
+  std::function<void(int,const std::string&,bufferlist&)> on_finish)
+{
+  string format;
+  cmd_getval(cmdmap, "format", format);
+  std::unique_ptr<Formatter> f(Formatter::create(
+				 format, "json-pretty", "json-pretty"));
+  int ret = 0;
+  stringstream ss;   // stderr error message stream
+  bufferlist outbl;  // if empty at end, we'll dump formatter as output
+
+  // get final prefix:
+  // - ceph pg <pgid> foo -> prefix=pg, cmd=foo
+  // - ceph tell <pgid> foo -> prefix=foo
+  string prefix(orig_prefix);
+  string command;
+  cmd_getval(cmdmap, "cmd", command);
+  if (command.size()) {
+    prefix = command;
+  }
+
+  if (prefix == "query") {
+    f->open_object_section("pg");
+    f->dump_stream("snap_trimq") << snap_trimq;
+    f->dump_unsigned("snap_trimq_len", snap_trimq.size());
+    recovery_state.dump_peering_state(f.get());
+
+    f->open_array_section("recovery_state");
+    handle_query_state(f.get());
+    f->close_section();
+
+    if (is_primary() && is_active() && m_scrubber) {
+      m_scrubber->dump(f.get());
+    }
+
+    f->open_object_section("agent_state");
+    if (agent_state)
+      agent_state->dump(f.get());
+    f->close_section();
+
+    f->close_section();
+  }
+
+  else if (prefix == "mark_unfound_lost") {
+    string mulcmd;
+    cmd_getval(cmdmap, "mulcmd", mulcmd);
+    int mode = -1;
+    if (mulcmd == "revert") {
+      if (pool.info.is_erasure()) {
+	ss << "mode must be 'delete' for ec pool";
+	ret = -EINVAL;
+	goto out;
+      }
+      mode = pg_log_entry_t::LOST_REVERT;
+    } else if (mulcmd == "delete") {
+      mode = pg_log_entry_t::LOST_DELETE;
+    } else {
+      ss << "mode must be 'revert' or 'delete'; mark not yet implemented";
+      ret = -EINVAL;
+      goto out;
+    }
+    ceph_assert(mode == pg_log_entry_t::LOST_REVERT ||
+		mode == pg_log_entry_t::LOST_DELETE);
+
+    if (!is_primary()) {
+      ss << "not primary";
+      ret = -EROFS;
+      goto out;
+    }
+
+    uint64_t unfound = recovery_state.get_missing_loc().num_unfound();
+    if (!unfound) {
+      ss << "pg has no unfound objects";
+      goto out;  // make command idempotent
+    }
+
+    if (!recovery_state.all_unfound_are_queried_or_lost(get_osdmap())) {
+      ss << "pg has " << unfound
+	 << " unfound objects but we haven't probed all sources, not marking lost";
+      ret = -EINVAL;
+      goto out;
+    }
+
+    mark_all_unfound_lost(mode, on_finish);
+    return;
+  }
+
+  else if (prefix == "list_unfound") {
+    hobject_t offset;
+    string offset_json;
+    bool show_offset = false;
+    if (cmd_getval(cmdmap, "offset", offset_json)) {
+      json_spirit::Value v;
+      try {
+	if (!json_spirit::read(offset_json, v))
+	  throw std::runtime_error("bad json");
+	offset.decode(v);
+      } catch (std::runtime_error& e) {
+	ss << "error parsing offset: " << e.what();
+	ret = -EINVAL;
+	goto out;
+      }
+      show_offset = true;
+    }
+    f->open_object_section("missing");
+    if (show_offset) {
+      f->open_object_section("offset");
+      offset.dump(f.get());
+      f->close_section();
+    }
+    auto &needs_recovery_map = recovery_state.get_missing_loc()
+      .get_needs_recovery();
+    f->dump_int("num_missing", needs_recovery_map.size());
+    f->dump_int("num_unfound", get_num_unfound());
+    map<hobject_t, pg_missing_item>::const_iterator p =
+      needs_recovery_map.upper_bound(offset);
+    {
+      f->open_array_section("objects");
+      int32_t num = 0;
+      for (; p != needs_recovery_map.end() &&
+	     num < cct->_conf->osd_command_max_records;
+	   ++p) {
+        if (recovery_state.get_missing_loc().is_unfound(p->first)) {
+	  f->open_object_section("object");
+	  {
+	    f->open_object_section("oid");
+	    p->first.dump(f.get());
+	    f->close_section();
+	  }
+          p->second.dump(f.get()); // have, need keys
+	  {
+	    f->open_array_section("locations");
+            for (auto &&r : recovery_state.get_missing_loc().get_locations(
+		   p->first)) {
+              f->dump_stream("shard") << r;
+	    }
+	    f->close_section();
+	  }
+	  f->close_section();
+	  num++;
+        }
+      }
+      f->close_section();
+    }
+    // Get possible locations of missing objects from pg information
+    PeeringState::QueryUnfound q(f.get());
+    recovery_state.handle_event(q, 0);
+    f->dump_bool("more", p != needs_recovery_map.end());
+    f->close_section();
+  }
+
+  else if (prefix == "scrub" ||
+	   prefix == "deep_scrub") {
+    bool deep = (prefix == "deep_scrub");
+    int64_t time;
+    cmd_getval(cmdmap, "time", time, (int64_t)0);
+
+    if (is_primary()) {
+      const pg_pool_t *p = &pool.info;
+      double pool_scrub_max_interval = 0;
+      double scrub_max_interval;
+      if (deep) {
+        p->opts.get(pool_opts_t::DEEP_SCRUB_INTERVAL, &pool_scrub_max_interval);
+        scrub_max_interval = pool_scrub_max_interval > 0 ?
+          pool_scrub_max_interval : g_conf()->osd_deep_scrub_interval;
+      } else {
+        p->opts.get(pool_opts_t::SCRUB_MAX_INTERVAL, &pool_scrub_max_interval);
+        scrub_max_interval = pool_scrub_max_interval > 0 ?
+          pool_scrub_max_interval : g_conf()->osd_scrub_max_interval;
+      }
+      // Instead of marking must_scrub force a schedule scrub
+      utime_t stamp = ceph_clock_now();
+      if (time == 0)
+        stamp -= scrub_max_interval;
+      else
+        stamp -=  (float)time;
+      stamp -= 100.0;  // push back last scrub more for good measure
+      if (deep) {
+        set_last_deep_scrub_stamp(stamp);
+      } else {
+        set_last_scrub_stamp(stamp);
+      }
+      f->open_object_section("result");
+      f->dump_bool("deep", deep);
+      f->dump_stream("stamp") << stamp;
+      f->close_section();
+    } else {
+      ss << "Not primary";
+      ret = -EPERM;
+    }
+    outbl.append(ss.str());
+  }
+
+  else {
+    ret = -ENOSYS;
+    ss << "prefix '" << prefix << "' not implemented";
+  }
+
+ out:
+  if (ret >= 0 && outbl.length() == 0) {
+    f->flush(outbl);
+  }
+  on_finish(ret, ss.str(), outbl);
+}
+
+
+// ==========================================================
+
+void PrimaryLogPG::do_pg_op(OpRequestRef op)
+{
+  const MOSDOp *m = static_cast<const MOSDOp *>(op->get_req());
+  ceph_assert(m->get_type() == CEPH_MSG_OSD_OP);
+  dout(10) << "do_pg_op " << *m << dendl;
+
+  op->mark_started();
+
+  int result = 0;
+  string cname, mname;
+
+  snapid_t snapid = m->get_snapid();
+
+  vector<OSDOp> ops = m->ops;
+
+  for (vector<OSDOp>::iterator p = ops.begin(); p != ops.end(); ++p) {
+    std::unique_ptr<const PGLSFilter> filter;
+    OSDOp& osd_op = *p;
+    auto bp = p->indata.cbegin();
+    switch (p->op.op) {
+    case CEPH_OSD_OP_PGNLS_FILTER:
+      try {
+	decode(cname, bp);
+	decode(mname, bp);
+      }
+      catch (const ceph::buffer::error& e) {
+	dout(0) << "unable to decode PGLS_FILTER description in " << *m << dendl;
+	result = -EINVAL;
+	break;
+      }
+      std::tie(result, filter) = get_pgls_filter(bp);
+      if (result < 0)
+        break;
+
+      ceph_assert(filter);
+
+      // fall through
+
+    case CEPH_OSD_OP_PGNLS:
+      if (snapid != CEPH_NOSNAP) {
+	result = -EINVAL;
+	break;
+      }
+      if (get_osdmap()->raw_pg_to_pg(m->get_pg()) != info.pgid.pgid) {
+        dout(10) << " pgnls pg=" << m->get_pg()
+		 << " " << get_osdmap()->raw_pg_to_pg(m->get_pg())
+		 << " != " << info.pgid << dendl;
+	result = 0; // hmm?
+      } else {
+	unsigned list_size = std::min<uint64_t>(cct->_conf->osd_max_pgls,
+						p->op.pgls.count);
+
+        dout(10) << " pgnls pg=" << m->get_pg() << " count " << list_size
+		 << dendl;
+	// read into a buffer
+        vector<hobject_t> sentries;
+        pg_nls_response_t response;
+	try {
+	  decode(response.handle, bp);
+	}
+	catch (const ceph::buffer::error& e) {
+	  dout(0) << "unable to decode PGNLS handle in " << *m << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+
+	hobject_t next;
+	hobject_t lower_bound = response.handle;
+	hobject_t pg_start = info.pgid.pgid.get_hobj_start();
+	hobject_t pg_end = info.pgid.pgid.get_hobj_end(pool.info.get_pg_num());
+        dout(10) << " pgnls lower_bound " << lower_bound
+		 << " pg_end " << pg_end << dendl;
+	if (((!lower_bound.is_max() && lower_bound >= pg_end) ||
+	     (lower_bound != hobject_t() && lower_bound < pg_start))) {
+	  // this should only happen with a buggy client.
+	  dout(10) << "outside of PG bounds " << pg_start << " .. "
+		   << pg_end << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+
+	hobject_t current = lower_bound;
+	int r = pgbackend->objects_list_partial(
+	  current,
+	  list_size,
+	  list_size,
+	  &sentries,
+	  &next);
+	if (r != 0) {
+	  result = -EINVAL;
+	  break;
+	}
+
+	map<hobject_t, pg_missing_item>::const_iterator missing_iter =
+	  recovery_state.get_pg_log().get_missing().get_items().lower_bound(current);
+	vector<hobject_t>::iterator ls_iter = sentries.begin();
+	hobject_t _max = hobject_t::get_max();
+	while (1) {
+	  const hobject_t &mcand =
+	    missing_iter == recovery_state.get_pg_log().get_missing().get_items().end() ?
+	    _max :
+	    missing_iter->first;
+	  const hobject_t &lcand =
+	    ls_iter == sentries.end() ?
+	    _max :
+	    *ls_iter;
+
+	  hobject_t candidate;
+	  if (mcand == lcand) {
+	    candidate = mcand;
+	    if (!mcand.is_max()) {
+	      ++ls_iter;
+	      ++missing_iter;
+	    }
+	  } else if (mcand < lcand) {
+	    candidate = mcand;
+	    ceph_assert(!mcand.is_max());
+	    ++missing_iter;
+	  } else {
+	    candidate = lcand;
+	    ceph_assert(!lcand.is_max());
+	    ++ls_iter;
+	  }
+
+          dout(10) << " pgnls candidate 0x" << std::hex << candidate.get_hash()
+		   << " vs lower bound 0x" << lower_bound.get_hash()
+		   << std::dec << dendl;
+
+	  if (candidate >= next) {
+	    break;
+	  }
+
+	  if (response.entries.size() == list_size) {
+	    next = candidate;
+	    break;
+	  }
+
+	  if (candidate.snap != CEPH_NOSNAP)
+	    continue;
+
+	  // skip internal namespace
+	  if (candidate.get_namespace() == cct->_conf->osd_hit_set_namespace)
+	    continue;
+
+	  if (recovery_state.get_missing_loc().is_deleted(candidate))
+	    continue;
+
+	  // skip wrong namespace
+	  if (m->get_hobj().nspace != librados::all_nspaces &&
+               candidate.get_namespace() != m->get_hobj().nspace)
+	    continue;
+
+	  if (filter && !pgls_filter(*filter, candidate))
+	    continue;
+
+          dout(20) << "pgnls item 0x" << std::hex
+            << candidate.get_hash()
+            << ", rev 0x" << hobject_t::_reverse_bits(candidate.get_hash())
+            << std::dec << " "
+            << candidate.oid.name << dendl;
+
+	  librados::ListObjectImpl item;
+	  item.nspace = candidate.get_namespace();
+	  item.oid = candidate.oid.name;
+	  item.locator = candidate.get_key();
+	  response.entries.push_back(item);
+	}
+
+	if (next.is_max() &&
+	    missing_iter == recovery_state.get_pg_log().get_missing().get_items().end() &&
+	    ls_iter == sentries.end()) {
+	  result = 1;
+
+	  // Set response.handle to the start of the next PG according
+	  // to the object sort order.
+	  response.handle = info.pgid.pgid.get_hobj_end(pool.info.get_pg_num());
+	} else {
+          response.handle = next;
+        }
+        dout(10) << "pgnls handle=" << response.handle << dendl;
+	encode(response, osd_op.outdata);
+	dout(10) << " pgnls result=" << result << " outdata.length()="
+		 << osd_op.outdata.length() << dendl;
+      }
+      break;
+
+    case CEPH_OSD_OP_PGLS_FILTER:
+      try {
+	decode(cname, bp);
+	decode(mname, bp);
+      }
+      catch (const ceph::buffer::error& e) {
+	dout(0) << "unable to decode PGLS_FILTER description in " << *m << dendl;
+	result = -EINVAL;
+	break;
+      }
+      std::tie(result, filter) = get_pgls_filter(bp);
+      if (result < 0)
+        break;
+
+      ceph_assert(filter);
+
+      // fall through
+
+    case CEPH_OSD_OP_PGLS:
+      if (snapid != CEPH_NOSNAP) {
+	result = -EINVAL;
+	break;
+      }
+      if (get_osdmap()->raw_pg_to_pg(m->get_pg()) != info.pgid.pgid) {
+        dout(10) << " pgls pg=" << m->get_pg()
+		 << " " << get_osdmap()->raw_pg_to_pg(m->get_pg())
+		 << " != " << info.pgid << dendl;
+	result = 0; // hmm?
+      } else {
+	unsigned list_size = std::min<uint64_t>(cct->_conf->osd_max_pgls,
+						p->op.pgls.count);
+
+        dout(10) << " pgls pg=" << m->get_pg() << " count " << list_size << dendl;
+	// read into a buffer
+        vector<hobject_t> sentries;
+        pg_ls_response_t response;
+	try {
+	  decode(response.handle, bp);
+	}
+	catch (const ceph::buffer::error& e) {
+	  dout(0) << "unable to decode PGLS handle in " << *m << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+
+	hobject_t next;
+	hobject_t current = response.handle;
+	int r = pgbackend->objects_list_partial(
+	  current,
+	  list_size,
+	  list_size,
+	  &sentries,
+	  &next);
+	if (r != 0) {
+	  result = -EINVAL;
+	  break;
+	}
+
+	ceph_assert(snapid == CEPH_NOSNAP || recovery_state.get_pg_log().get_missing().get_items().empty());
+
+	map<hobject_t, pg_missing_item>::const_iterator missing_iter =
+	  recovery_state.get_pg_log().get_missing().get_items().lower_bound(current);
+	vector<hobject_t>::iterator ls_iter = sentries.begin();
+	hobject_t _max = hobject_t::get_max();
+	while (1) {
+	  const hobject_t &mcand =
+	    missing_iter == recovery_state.get_pg_log().get_missing().get_items().end() ?
+	    _max :
+	    missing_iter->first;
+	  const hobject_t &lcand =
+	    ls_iter == sentries.end() ?
+	    _max :
+	    *ls_iter;
+
+	  hobject_t candidate;
+	  if (mcand == lcand) {
+	    candidate = mcand;
+	    if (!mcand.is_max()) {
+	      ++ls_iter;
+	      ++missing_iter;
+	    }
+	  } else if (mcand < lcand) {
+	    candidate = mcand;
+	    ceph_assert(!mcand.is_max());
+	    ++missing_iter;
+	  } else {
+	    candidate = lcand;
+	    ceph_assert(!lcand.is_max());
+	    ++ls_iter;
+	  }
+
+	  if (candidate >= next) {
+	    break;
+	  }
+
+	  if (response.entries.size() == list_size) {
+	    next = candidate;
+	    break;
+	  }
+
+	  if (candidate.snap != CEPH_NOSNAP)
+	    continue;
+
+	  // skip wrong namespace
+	  if (candidate.get_namespace() != m->get_hobj().nspace)
+	    continue;
+
+	  if (recovery_state.get_missing_loc().is_deleted(candidate))
+	    continue;
+
+	  if (filter && !pgls_filter(*filter, candidate))
+	    continue;
+
+	  response.entries.push_back(make_pair(candidate.oid,
+					       candidate.get_key()));
+	}
+	if (next.is_max() &&
+	    missing_iter == recovery_state.get_pg_log().get_missing().get_items().end() &&
+	    ls_iter == sentries.end()) {
+	  result = 1;
+	}
+	response.handle = next;
+	encode(response, osd_op.outdata);
+	dout(10) << " pgls result=" << result << " outdata.length()="
+		 << osd_op.outdata.length() << dendl;
+      }
+      break;
+
+    case CEPH_OSD_OP_PG_HITSET_LS:
+      {
+	list< pair<utime_t,utime_t> > ls;
+	for (list<pg_hit_set_info_t>::const_iterator p = info.hit_set.history.begin();
+	     p != info.hit_set.history.end();
+	     ++p)
+	  ls.push_back(make_pair(p->begin, p->end));
+	if (hit_set)
+	  ls.push_back(make_pair(hit_set_start_stamp, utime_t()));
+	encode(ls, osd_op.outdata);
+      }
+      break;
+
+    case CEPH_OSD_OP_PG_HITSET_GET:
+      {
+	utime_t stamp(osd_op.op.hit_set_get.stamp);
+	if (hit_set_start_stamp && stamp >= hit_set_start_stamp) {
+	  // read the current in-memory HitSet, not the version we've
+	  // checkpointed.
+	  if (!hit_set) {
+	    result= -ENOENT;
+	    break;
+	  }
+	  encode(*hit_set, osd_op.outdata);
+	  result = osd_op.outdata.length();
+	} else {
+	  // read an archived HitSet.
+	  hobject_t oid;
+	  for (list<pg_hit_set_info_t>::const_iterator p = info.hit_set.history.begin();
+	       p != info.hit_set.history.end();
+	       ++p) {
+	    if (stamp >= p->begin && stamp <= p->end) {
+	      oid = get_hit_set_archive_object(p->begin, p->end, p->using_gmt);
+	      break;
+	    }
+	  }
+	  if (oid == hobject_t()) {
+	    result = -ENOENT;
+	    break;
+	  }
+	  if (!pool.info.is_replicated()) {
+	    // FIXME: EC not supported yet
+	    result = -EOPNOTSUPP;
+	    break;
+	  }
+	  if (is_unreadable_object(oid)) {
+	    wait_for_unreadable_object(oid, op);
+	    return;
+	  }
+	  result = osd->store->read(ch, ghobject_t(oid), 0, 0, osd_op.outdata);
+	}
+      }
+      break;
+
+   case CEPH_OSD_OP_SCRUBLS:
+      result = do_scrub_ls(m, &osd_op);
+      break;
+
+    default:
+      result = -EINVAL;
+      break;
+    }
+
+    if (result < 0)
+      break;
+  }
+
+  // reply
+  MOSDOpReply *reply = new MOSDOpReply(m, 0, get_osdmap_epoch(),
+				       CEPH_OSD_FLAG_ACK | CEPH_OSD_FLAG_ONDISK,
+				       false);
+  reply->claim_op_out_data(ops);
+  reply->set_result(result);
+  reply->set_reply_versions(info.last_update, info.last_user_version);
+  osd->send_message_osd_client(reply, m->get_connection());
+}
+
+int PrimaryLogPG::do_scrub_ls(const MOSDOp *m, OSDOp *osd_op)
+{
+  if (m->get_pg() != info.pgid.pgid) {
+    dout(10) << " scrubls pg=" << m->get_pg() << " != " << info.pgid << dendl;
+    return -EINVAL; // hmm?
+  }
+  auto bp = osd_op->indata.cbegin();
+  scrub_ls_arg_t arg;
+  try {
+    arg.decode(bp);
+  } catch (ceph::buffer::error&) {
+    dout(10) << " corrupted scrub_ls_arg_t" << dendl;
+    return -EINVAL;
+  }
+
+  int r = 0;
+  scrub_ls_result_t result = {.interval = info.history.same_interval_since};
+
+  if (arg.interval != 0 && arg.interval != info.history.same_interval_since) {
+    r = -EAGAIN;
+  } else {
+    bool store_queried = m_scrubber && m_scrubber->get_store_errors(arg, result);
+    if (store_queried) {
+      encode(result, osd_op->outdata); 
+    } else {
+      // the scrubber's store is not initialized
+      r = -ENOENT;
+    }
+  }
+
+  return r;
+}
+
+/**
+ * Releases locks
+ *
+ * @param manager [in] manager with locks to release
+ */
+void PrimaryLogPG::release_object_locks(
+  ObcLockManager &lock_manager) {
+  std::list<std::pair<ObjectContextRef, std::list<OpRequestRef> > > to_req;
+  bool requeue_recovery = false;
+  bool requeue_snaptrim = false;
+  lock_manager.put_locks(
+    &to_req,
+    &requeue_recovery,
+    &requeue_snaptrim);
+  if (requeue_recovery)
+    queue_recovery();
+  if (requeue_snaptrim)
+    snap_trimmer_machine.process_event(TrimWriteUnblocked());
+
+  if (!to_req.empty()) {
+    // requeue at front of scrub blocking queue if we are blocked by scrub
+    for (auto &&p: to_req) {
+      if (m_scrubber->write_blocked_by_scrub(p.first->obs.oi.soid.get_head())) {
+        for (auto& op : p.second) {
+          op->mark_delayed("waiting for scrub");
+        }
+
+	waiting_for_scrub.splice(
+	  waiting_for_scrub.begin(),
+	  p.second,
+	  p.second.begin(),
+	  p.second.end());
+      } else if (is_laggy()) {
+        for (auto& op : p.second) {
+          op->mark_delayed("waiting for readable");
+        }
+	waiting_for_readable.splice(
+	  waiting_for_readable.begin(),
+	  p.second,
+	  p.second.begin(),
+	  p.second.end());
+      } else {
+	requeue_ops(p.second);
+      }
+    }
+  }
+}
+
+PrimaryLogPG::PrimaryLogPG(OSDService *o, OSDMapRef curmap,
+			   const PGPool &_pool,
+			   const map<string,string>& ec_profile, spg_t p) :
+  PG(o, curmap, _pool, p),
+  pgbackend(
+    PGBackend::build_pg_backend(
+      _pool.info, ec_profile, this, coll_t(p), ch, o->store, cct)),
+  object_contexts(o->cct, o->cct->_conf->osd_pg_object_context_cache_count),
+  new_backfill(false),
+  temp_seq(0),
+  snap_trimmer_machine(this)
+{
+  recovery_state.set_backend_predicates(
+    pgbackend->get_is_readable_predicate(),
+    pgbackend->get_is_recoverable_predicate());
+  snap_trimmer_machine.initiate();
+
+  m_scrubber = make_unique<PrimaryLogScrub>(this);
+}
+
+PrimaryLogPG::~PrimaryLogPG()
+{
+  m_scrubber.reset();
+}
+
+void PrimaryLogPG::get_src_oloc(const object_t& oid, const object_locator_t& oloc, object_locator_t& src_oloc)
+{
+  src_oloc = oloc;
+  if (oloc.key.empty())
+    src_oloc.key = oid.name;
+}
+
+void PrimaryLogPG::handle_backoff(OpRequestRef& op)
+{
+  auto m = op->get_req<MOSDBackoff>();
+  auto session = ceph::ref_cast<Session>(m->get_connection()->get_priv());
+  if (!session)
+    return;  // drop it.
+  hobject_t begin = info.pgid.pgid.get_hobj_start();
+  hobject_t end = info.pgid.pgid.get_hobj_end(pool.info.get_pg_num());
+  if (begin < m->begin) {
+    begin = m->begin;
+  }
+  if (end > m->end) {
+    end = m->end;
+  }
+  dout(10) << __func__ << " backoff ack id " << m->id
+	   << " [" << begin << "," << end << ")" << dendl;
+  session->ack_backoff(cct, m->pgid, m->id, begin, end);
+}
+
+void PrimaryLogPG::do_request(
+  OpRequestRef& op,
+  ThreadPool::TPHandle &handle)
+{
+  if (op->osd_trace) {
+    op->pg_trace.init("pg op", &trace_endpoint, &op->osd_trace);
+    op->pg_trace.event("do request");
+  }
+#ifdef HAVE_JAEGER
+  if (op->osd_parent_span) {
+    auto do_req_span = jaeger_tracing::child_span(__func__, op->osd_parent_span);
+  }
+#endif
+// make sure we have a new enough map
+  auto p = waiting_for_map.find(op->get_source());
+  if (p != waiting_for_map.end()) {
+    // preserve ordering
+    dout(20) << __func__ << " waiting_for_map "
+	     << p->first << " not empty, queueing" << dendl;
+    p->second.push_back(op);
+    op->mark_delayed("waiting_for_map not empty");
+    return;
+  }
+  if (!have_same_or_newer_map(op->min_epoch)) {
+    dout(20) << __func__ << " min " << op->min_epoch
+	     << ", queue on waiting_for_map " << op->get_source() << dendl;
+    waiting_for_map[op->get_source()].push_back(op);
+    op->mark_delayed("op must wait for map");
+    osd->request_osdmap_update(op->min_epoch);
+    return;
+  }
+
+  if (can_discard_request(op)) {
+    return;
+  }
+
+  // pg-wide backoffs
+  const Message *m = op->get_req();
+  int msg_type = m->get_type();
+  if (m->get_connection()->has_feature(CEPH_FEATURE_RADOS_BACKOFF)) {
+    auto session = ceph::ref_cast<Session>(m->get_connection()->get_priv());
+    if (!session)
+      return;  // drop it.
+    if (msg_type == CEPH_MSG_OSD_OP) {
+      if (session->check_backoff(cct, info.pgid,
+				 info.pgid.pgid.get_hobj_start(), m)) {
+	return;
+      }
+
+      bool backoff =
+	is_down() ||
+	is_incomplete() ||
+	(!is_active() && is_peered());
+      if (g_conf()->osd_backoff_on_peering && !backoff) {
+	if (is_peering()) {
+	  backoff = true;
+	}
+      }
+      if (backoff) {
+	add_pg_backoff(session);
+	return;
+      }
+    }
+    // pg backoff acks at pg-level
+    if (msg_type == CEPH_MSG_OSD_BACKOFF) {
+      const MOSDBackoff *ba = static_cast<const MOSDBackoff*>(m);
+      if (ba->begin != ba->end) {
+	handle_backoff(op);
+	return;
+      }
+    }
+  }
+
+  if (!is_peered()) {
+    // Delay unless PGBackend says it's ok
+    if (pgbackend->can_handle_while_inactive(op)) {
+      bool handled = pgbackend->handle_message(op);
+      ceph_assert(handled);
+      return;
+    } else {
+      waiting_for_peered.push_back(op);
+      op->mark_delayed("waiting for peered");
+      return;
+    }
+  }
+
+  if (recovery_state.needs_flush()) {
+    dout(20) << "waiting for flush on " << op << dendl;
+    waiting_for_flush.push_back(op);
+    op->mark_delayed("waiting for flush");
+    return;
+  }
+
+  ceph_assert(is_peered() && !recovery_state.needs_flush());
+  if (pgbackend->handle_message(op))
+    return;
+
+  switch (msg_type) {
+  case CEPH_MSG_OSD_OP:
+  case CEPH_MSG_OSD_BACKOFF:
+    if (!is_active()) {
+      dout(20) << " peered, not active, waiting for active on " << op << dendl;
+      waiting_for_active.push_back(op);
+      op->mark_delayed("waiting for active");
+      return;
+    }
+    switch (msg_type) {
+    case CEPH_MSG_OSD_OP:
+      // verify client features
+      if ((pool.info.has_tiers() || pool.info.is_tier()) &&
+	  !op->has_feature(CEPH_FEATURE_OSD_CACHEPOOL)) {
+	osd->reply_op_error(op, -EOPNOTSUPP);
+	return;
+      }
+      do_op(op);
+      break;
+    case CEPH_MSG_OSD_BACKOFF:
+      // object-level backoff acks handled in osdop context
+      handle_backoff(op);
+      break;
+    }
+    break;
+
+  case MSG_OSD_PG_SCAN:
+    do_scan(op, handle);
+    break;
+
+  case MSG_OSD_PG_BACKFILL:
+    do_backfill(op);
+    break;
+
+  case MSG_OSD_PG_BACKFILL_REMOVE:
+    do_backfill_remove(op);
+    break;
+
+  case MSG_OSD_SCRUB_RESERVE:
+    {
+      if (!m_scrubber) {
+        osd->reply_op_error(op, -EAGAIN);
+        return;
+      }
+      auto m = op->get_req<MOSDScrubReserve>();
+      switch (m->type) {
+      case MOSDScrubReserve::REQUEST:
+	m_scrubber->handle_scrub_reserve_request(op);
+	break;
+      case MOSDScrubReserve::GRANT:
+	m_scrubber->handle_scrub_reserve_grant(op, m->from);
+	break;
+      case MOSDScrubReserve::REJECT:
+	m_scrubber->handle_scrub_reserve_reject(op, m->from);
+	break;
+      case MOSDScrubReserve::RELEASE:
+	m_scrubber->handle_scrub_reserve_release(op);
+	break;
+      }
+    }
+    break;
+
+  case MSG_OSD_REP_SCRUB:
+    replica_scrub(op, handle);
+    break;
+
+  case MSG_OSD_REP_SCRUBMAP:
+    do_replica_scrub_map(op);
+    break;
+
+  case MSG_OSD_PG_UPDATE_LOG_MISSING:
+    do_update_log_missing(op);
+    break;
+
+  case MSG_OSD_PG_UPDATE_LOG_MISSING_REPLY:
+    do_update_log_missing_reply(op);
+    break;
+
+  default:
+    ceph_abort_msg("bad message type in do_request");
+  }
+}
+
+/** do_op - do an op
+ * pg lock will be held (if multithreaded)
+ * osd_lock NOT held.
+ */
+void PrimaryLogPG::do_op(OpRequestRef& op)
+{
+  FUNCTRACE(cct);
+  // NOTE: take a non-const pointer here; we must be careful not to
+  // change anything that will break other reads on m (operator<<).
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  ceph_assert(m->get_type() == CEPH_MSG_OSD_OP);
+  if (m->finish_decode()) {
+    op->reset_desc();   // for TrackedOp
+    m->clear_payload();
+  }
+
+  dout(20) << __func__ << ": op " << *m << dendl;
+
+  const hobject_t head = m->get_hobj().get_head();
+
+  if (!info.pgid.pgid.contains(
+	info.pgid.pgid.get_split_bits(pool.info.get_pg_num()), head)) {
+    derr << __func__ << " " << info.pgid.pgid << " does not contain "
+	 << head << " pg_num " << pool.info.get_pg_num() << " hash "
+	 << std::hex << head.get_hash() << std::dec << dendl;
+    osd->clog->warn() << info.pgid.pgid << " does not contain " << head
+		      << " op " << *m;
+    ceph_assert(!cct->_conf->osd_debug_misdirected_ops);
+    return;
+  }
+
+  bool can_backoff =
+    m->get_connection()->has_feature(CEPH_FEATURE_RADOS_BACKOFF);
+  ceph::ref_t<Session> session;
+  if (can_backoff) {
+    session = static_cast<Session*>(m->get_connection()->get_priv().get());
+    if (!session.get()) {
+      dout(10) << __func__ << " no session" << dendl;
+      return;
+    }
+
+    if (session->check_backoff(cct, info.pgid, head, m)) {
+      return;
+    }
+  }
+
+  if (m->has_flag(CEPH_OSD_FLAG_PARALLELEXEC)) {
+    // not implemented.
+    dout(20) << __func__ << ": PARALLELEXEC not implemented " << *m << dendl;
+    osd->reply_op_error(op, -EINVAL);
+    return;
+  }
+
+  {
+    int r = op->maybe_init_op_info(*get_osdmap());
+    if (r) {
+      osd->reply_op_error(op, r);
+      return;
+    }
+  }
+
+  if ((m->get_flags() & (CEPH_OSD_FLAG_BALANCE_READS |
+			 CEPH_OSD_FLAG_LOCALIZE_READS)) &&
+      op->may_read() &&
+      !(op->may_write() || op->may_cache())) {
+    // balanced reads; any replica will do
+    if (!(is_primary() || is_nonprimary())) {
+      osd->handle_misdirected_op(this, op);
+      return;
+    }
+  } else {
+    // normal case; must be primary
+    if (!is_primary()) {
+      osd->handle_misdirected_op(this, op);
+      return;
+    }
+  }
+
+  if (!check_laggy(op)) {
+    return;
+  }
+
+  if (!op_has_sufficient_caps(op)) {
+    osd->reply_op_error(op, -EPERM);
+    return;
+  }
+
+  if (op->includes_pg_op()) {
+    return do_pg_op(op);
+  }
+
+  // object name too long?
+  if (m->get_oid().name.size() > cct->_conf->osd_max_object_name_len) {
+    dout(4) << "do_op name is longer than "
+	    << cct->_conf->osd_max_object_name_len
+	    << " bytes" << dendl;
+    osd->reply_op_error(op, -ENAMETOOLONG);
+    return;
+  }
+  if (m->get_hobj().get_key().size() > cct->_conf->osd_max_object_name_len) {
+    dout(4) << "do_op locator is longer than "
+	    << cct->_conf->osd_max_object_name_len
+	    << " bytes" << dendl;
+    osd->reply_op_error(op, -ENAMETOOLONG);
+    return;
+  }
+  if (m->get_hobj().nspace.size() > cct->_conf->osd_max_object_namespace_len) {
+    dout(4) << "do_op namespace is longer than "
+	    << cct->_conf->osd_max_object_namespace_len
+	    << " bytes" << dendl;
+    osd->reply_op_error(op, -ENAMETOOLONG);
+    return;
+  }
+  if (m->get_hobj().oid.name.empty()) {
+    dout(4) << "do_op empty oid name is not allowed" << dendl;
+    osd->reply_op_error(op, -EINVAL);
+    return;
+  }
+
+  if (int r = osd->store->validate_hobject_key(head)) {
+    dout(4) << "do_op object " << head << " invalid for backing store: "
+	    << r << dendl;
+    osd->reply_op_error(op, r);
+    return;
+  }
+
+  // blocklisted?
+  if (get_osdmap()->is_blocklisted(m->get_source_addr())) {
+    dout(10) << "do_op " << m->get_source_addr() << " is blocklisted" << dendl;
+    osd->reply_op_error(op, -EBLOCKLISTED);
+    return;
+  }
+
+  // order this op as a write?
+  bool write_ordered = op->rwordered();
+
+  // discard due to cluster full transition?  (we discard any op that
+  // originates before the cluster or pool is marked full; the client
+  // will resend after the full flag is removed or if they expect the
+  // op to succeed despite being full).  The except is FULL_FORCE and
+  // FULL_TRY ops, which there is no reason to discard because they
+  // bypass all full checks anyway.  If this op isn't write or
+  // read-ordered, we skip.
+  // FIXME: we exclude mds writes for now.
+  if (write_ordered && !(m->get_source().is_mds() ||
+			 m->has_flag(CEPH_OSD_FLAG_FULL_TRY) ||
+			 m->has_flag(CEPH_OSD_FLAG_FULL_FORCE)) &&
+      info.history.last_epoch_marked_full > m->get_map_epoch()) {
+    dout(10) << __func__ << " discarding op sent before full " << m << " "
+	     << *m << dendl;
+    return;
+  }
+  // mds should have stopped writing before this point.
+  // We can't allow OSD to become non-startable even if mds
+  // could be writing as part of file removals.
+  if (write_ordered && osd->check_failsafe_full(get_dpp()) &&
+      !m->has_flag(CEPH_OSD_FLAG_FULL_TRY)) {
+    dout(10) << __func__ << " fail-safe full check failed, dropping request." << dendl;
+    return;
+  }
+  int64_t poolid = get_pgid().pool();
+  if (op->may_write()) {
+
+    const pg_pool_t *pi = get_osdmap()->get_pg_pool(poolid);
+    if (!pi) {
+      return;
+    }
+
+    // invalid?
+    if (m->get_snapid() != CEPH_NOSNAP) {
+      dout(20) << __func__ << ": write to clone not valid " << *m << dendl;
+      osd->reply_op_error(op, -EINVAL);
+      return;
+    }
+
+    // too big?
+    if (cct->_conf->osd_max_write_size &&
+        m->get_data_len() > cct->_conf->osd_max_write_size << 20) {
+      // journal can't hold commit!
+      derr << "do_op msg data len " << m->get_data_len()
+           << " > osd_max_write_size " << (cct->_conf->osd_max_write_size << 20)
+           << " on " << *m << dendl;
+      osd->reply_op_error(op, -OSD_WRITETOOBIG);
+      return;
+    }
+  }
+
+  dout(10) << "do_op " << *m
+	   << (op->may_write() ? " may_write" : "")
+	   << (op->may_read() ? " may_read" : "")
+	   << (op->may_cache() ? " may_cache" : "")
+	   << " -> " << (write_ordered ? "write-ordered" : "read-ordered")
+	   << " flags " << ceph_osd_flag_string(m->get_flags())
+	   << dendl;
+
+#ifdef HAVE_JAEGER
+  if (op->osd_parent_span) {
+    auto do_op_span = jaeger_tracing::child_span(__func__, op->osd_parent_span);
+  }
+#endif
+  // missing object?
+  if (is_unreadable_object(head)) {
+    if (!is_primary()) {
+      osd->reply_op_error(op, -EAGAIN);
+      return;
+    }
+    if (can_backoff &&
+	(g_conf()->osd_backoff_on_degraded ||
+	 (g_conf()->osd_backoff_on_unfound &&
+	  recovery_state.get_missing_loc().is_unfound(head)))) {
+      add_backoff(session, head, head);
+      maybe_kick_recovery(head);
+    } else {
+      wait_for_unreadable_object(head, op);
+    }
+    return;
+  }
+
+  if (write_ordered) {
+    // degraded object?
+    if (is_degraded_or_backfilling_object(head)) {
+      if (can_backoff && g_conf()->osd_backoff_on_degraded) {
+        add_backoff(session, head, head);
+        maybe_kick_recovery(head);
+      } else {
+        wait_for_degraded_object(head, op);
+      }
+      return;
+    }
+
+    if (m_scrubber->is_scrub_active() && m_scrubber->write_blocked_by_scrub(head)) {
+      dout(20) << __func__ << ": waiting for scrub" << dendl;
+      waiting_for_scrub.push_back(op);
+      op->mark_delayed("waiting for scrub");
+      return;
+    }
+    if (!check_laggy_requeue(op)) {
+      return;
+    }
+
+    // blocked on snap?
+    if (auto blocked_iter = objects_blocked_on_degraded_snap.find(head);
+	blocked_iter != std::end(objects_blocked_on_degraded_snap)) {
+      hobject_t to_wait_on(head);
+      to_wait_on.snap = blocked_iter->second;
+      wait_for_degraded_object(to_wait_on, op);
+      return;
+    }
+    if (auto blocked_snap_promote_iter = objects_blocked_on_snap_promotion.find(head);
+	blocked_snap_promote_iter != std::end(objects_blocked_on_snap_promotion)) {
+      wait_for_blocked_object(blocked_snap_promote_iter->second->obs.oi.soid, op);
+      return;
+    }
+    if (objects_blocked_on_cache_full.count(head)) {
+      block_write_on_full_cache(head, op);
+      return;
+    }
+  }
+
+  // dup/resent?
+  if (op->may_write() || op->may_cache()) {
+    // warning: we will get back *a* request for this reqid, but not
+    // necessarily the most recent.  this happens with flush and
+    // promote ops, but we can't possible have both in our log where
+    // the original request is still not stable on disk, so for our
+    // purposes here it doesn't matter which one we get.
+    eversion_t version;
+    version_t user_version;
+    int return_code = 0;
+    vector<pg_log_op_return_item_t> op_returns;
+    bool got = check_in_progress_op(
+      m->get_reqid(), &version, &user_version, &return_code, &op_returns);
+    if (got) {
+      dout(3) << __func__ << " dup " << m->get_reqid()
+	      << " version " << version << dendl;
+      if (already_complete(version)) {
+	osd->reply_op_error(op, return_code, version, user_version, op_returns);
+      } else {
+	dout(10) << " waiting for " << version << " to commit" << dendl;
+        // always queue ondisk waiters, so that we can requeue if needed
+	waiting_for_ondisk[version].emplace_back(op, user_version, return_code,
+						 op_returns);
+	op->mark_delayed("waiting for ondisk");
+      }
+      return;
+    }
+  }
+
+  ObjectContextRef obc;
+  bool can_create = op->may_write();
+  hobject_t missing_oid;
+
+  // kludge around the fact that LIST_SNAPS sets CEPH_SNAPDIR for LIST_SNAPS
+  const hobject_t& oid =
+    m->get_snapid() == CEPH_SNAPDIR ? head : m->get_hobj();
+
+  // make sure LIST_SNAPS is on CEPH_SNAPDIR and nothing else
+  for (vector<OSDOp>::iterator p = m->ops.begin(); p != m->ops.end(); ++p) {
+    OSDOp& osd_op = *p;
+
+    if (osd_op.op.op == CEPH_OSD_OP_LIST_SNAPS) {
+      if (m->get_snapid() != CEPH_SNAPDIR) {
+	dout(10) << "LIST_SNAPS with incorrect context" << dendl;
+	osd->reply_op_error(op, -EINVAL);
+	return;
+      }
+    } else {
+      if (m->get_snapid() == CEPH_SNAPDIR) {
+	dout(10) << "non-LIST_SNAPS on snapdir" << dendl;
+	osd->reply_op_error(op, -EINVAL);
+	return;
+      }
+    }
+  }
+
+  // io blocked on obc?
+  if (!m->has_flag(CEPH_OSD_FLAG_FLUSH) &&
+      maybe_await_blocked_head(oid, op)) {
+    return;
+  }
+
+  if (!is_primary()) {
+    if (!recovery_state.can_serve_replica_read(oid)) {
+      dout(20) << __func__
+               << ": unstable write on replica, bouncing to primary "
+	       << *m << dendl;
+      osd->reply_op_error(op, -EAGAIN);
+      return;
+    }
+    dout(20) << __func__ << ": serving replica read on oid " << oid
+             << dendl;
+  }
+
+  int r = find_object_context(
+    oid, &obc, can_create,
+    m->has_flag(CEPH_OSD_FLAG_MAP_SNAP_CLONE),
+    &missing_oid);
+
+  // LIST_SNAPS needs the ssc too
+  if (obc &&
+      m->get_snapid() == CEPH_SNAPDIR &&
+      !obc->ssc) {
+    obc->ssc = get_snapset_context(oid, true);
+  }
+
+  if (r == -EAGAIN) {
+    // If we're not the primary of this OSD, we just return -EAGAIN. Otherwise,
+    // we have to wait for the object.
+    if (is_primary()) {
+      // missing the specific snap we need; requeue and wait.
+      ceph_assert(!op->may_write()); // only happens on a read/cache
+      wait_for_unreadable_object(missing_oid, op);
+      return;
+    }
+  } else if (r == 0) {
+    if (is_unreadable_object(obc->obs.oi.soid)) {
+      dout(10) << __func__ << ": clone " << obc->obs.oi.soid
+	       << " is unreadable, waiting" << dendl;
+      wait_for_unreadable_object(obc->obs.oi.soid, op);
+      return;
+    }
+
+    // degraded object?  (the check above was for head; this could be a clone)
+    if (write_ordered &&
+	obc->obs.oi.soid.snap != CEPH_NOSNAP &&
+	is_degraded_or_backfilling_object(obc->obs.oi.soid)) {
+      dout(10) << __func__ << ": clone " << obc->obs.oi.soid
+	       << " is degraded, waiting" << dendl;
+      wait_for_degraded_object(obc->obs.oi.soid, op);
+      return;
+    }
+  }
+
+  bool in_hit_set = false;
+  if (hit_set) {
+    if (obc.get()) {
+      if (obc->obs.oi.soid != hobject_t() && hit_set->contains(obc->obs.oi.soid))
+	in_hit_set = true;
+    } else {
+      if (missing_oid != hobject_t() && hit_set->contains(missing_oid))
+        in_hit_set = true;
+    }
+    if (!op->hitset_inserted) {
+      hit_set->insert(oid);
+      op->hitset_inserted = true;
+      if (hit_set->is_full() ||
+          hit_set_start_stamp + pool.info.hit_set_period <= m->get_recv_stamp()) {
+        hit_set_persist();
+      }
+    }
+  }
+
+  if (agent_state) {
+    if (agent_choose_mode(false, op))
+      return;
+  }
+
+  if (obc.get() && obc->obs.exists && obc->obs.oi.has_manifest()) {
+    if (recover_adjacent_clones(obc, op)) {
+      return;
+    }
+    if (maybe_handle_manifest(op,
+			       write_ordered,
+			       obc))
+    return;
+  }
+
+  if (maybe_handle_cache(op,
+			 write_ordered,
+			 obc,
+			 r,
+			 missing_oid,
+			 false,
+			 in_hit_set))
+    return;
+
+  if (r && (r != -ENOENT || !obc)) {
+    // copy the reqids for copy get on ENOENT
+    if (r == -ENOENT &&
+	(m->ops[0].op.op == CEPH_OSD_OP_COPY_GET)) {
+      fill_in_copy_get_noent(op, oid, m->ops[0]);
+      return;
+    }
+    dout(20) << __func__ << ": find_object_context got error " << r << dendl;
+    if (op->may_write() &&
+	get_osdmap()->require_osd_release >= ceph_release_t::kraken) {
+      record_write_error(op, oid, nullptr, r);
+    } else {
+      osd->reply_op_error(op, r);
+    }
+    return;
+  }
+
+  // make sure locator is consistent
+  object_locator_t oloc(obc->obs.oi.soid);
+  if (m->get_object_locator() != oloc) {
+    dout(10) << " provided locator " << m->get_object_locator()
+	     << " != object's " << obc->obs.oi.soid << dendl;
+    osd->clog->warn() << "bad locator " << m->get_object_locator()
+		     << " on object " << oloc
+		      << " op " << *m;
+  }
+
+  // io blocked on obc?
+  if (obc->is_blocked() &&
+      !m->has_flag(CEPH_OSD_FLAG_FLUSH)) {
+    wait_for_blocked_object(obc->obs.oi.soid, op);
+    return;
+  }
+
+  dout(25) << __func__ << " oi " << obc->obs.oi << dendl;
+
+  OpContext *ctx = new OpContext(op, m->get_reqid(), &m->ops, obc, this);
+
+  if (m->has_flag(CEPH_OSD_FLAG_SKIPRWLOCKS)) {
+    dout(20) << __func__ << ": skipping rw locks" << dendl;
+  } else if (m->get_flags() & CEPH_OSD_FLAG_FLUSH) {
+    dout(20) << __func__ << ": part of flush, will ignore write lock" << dendl;
+
+    // verify there is in fact a flush in progress
+    // FIXME: we could make this a stronger test.
+    map<hobject_t,FlushOpRef>::iterator p = flush_ops.find(obc->obs.oi.soid);
+    if (p == flush_ops.end()) {
+      dout(10) << __func__ << " no flush in progress, aborting" << dendl;
+      reply_ctx(ctx, -EINVAL);
+      return;
+    }
+  } else if (!get_rw_locks(write_ordered, ctx)) {
+    dout(20) << __func__ << " waiting for rw locks " << dendl;
+    op->mark_delayed("waiting for rw locks");
+    close_op_ctx(ctx);
+    return;
+  }
+  dout(20) << __func__ << " obc " << *obc << dendl;
+
+  if (r) {
+    dout(20) << __func__ << " returned an error: " << r << dendl;
+    if (op->may_write() &&
+	get_osdmap()->require_osd_release >= ceph_release_t::kraken) {
+      record_write_error(op, oid, nullptr, r,
+			 ctx->op->allows_returnvec() ? ctx : nullptr);
+    } else {
+      osd->reply_op_error(op, r);
+    }
+    close_op_ctx(ctx);
+    return;
+  }
+
+  if (m->has_flag(CEPH_OSD_FLAG_IGNORE_CACHE)) {
+    ctx->ignore_cache = true;
+  }
+
+  if ((op->may_read()) && (obc->obs.oi.is_lost())) {
+    // This object is lost. Reading from it returns an error.
+    dout(20) << __func__ << ": object " << obc->obs.oi.soid
+	     << " is lost" << dendl;
+    reply_ctx(ctx, -ENFILE);
+    return;
+  }
+  if (!op->may_write() &&
+      !op->may_cache() &&
+      (!obc->obs.exists ||
+       ((m->get_snapid() != CEPH_SNAPDIR) &&
+	obc->obs.oi.is_whiteout()))) {
+    // copy the reqids for copy get on ENOENT
+    if (m->ops[0].op.op == CEPH_OSD_OP_COPY_GET) {
+      fill_in_copy_get_noent(op, oid, m->ops[0]);
+      close_op_ctx(ctx);
+      return;
+    }
+    reply_ctx(ctx, -ENOENT);
+    return;
+  }
+
+  op->mark_started();
+
+  execute_ctx(ctx);
+  utime_t prepare_latency = ceph_clock_now();
+  prepare_latency -= op->get_dequeued_time();
+  osd->logger->tinc(l_osd_op_prepare_lat, prepare_latency);
+  if (op->may_read() && op->may_write()) {
+    osd->logger->tinc(l_osd_op_rw_prepare_lat, prepare_latency);
+  } else if (op->may_read()) {
+    osd->logger->tinc(l_osd_op_r_prepare_lat, prepare_latency);
+  } else if (op->may_write() || op->may_cache()) {
+    osd->logger->tinc(l_osd_op_w_prepare_lat, prepare_latency);
+  }
+
+  // force recovery of the oldest missing object if too many logs
+  maybe_force_recovery();
+}
+
+PrimaryLogPG::cache_result_t PrimaryLogPG::maybe_handle_manifest_detail(
+  OpRequestRef op,
+  bool write_ordered,
+  ObjectContextRef obc)
+{
+  ceph_assert(obc);
+  if (op->get_req<MOSDOp>()->get_flags() & CEPH_OSD_FLAG_IGNORE_REDIRECT) {
+    dout(20) << __func__ << ": ignoring redirect due to flag" << dendl;
+    return cache_result_t::NOOP;
+  }
+
+  // if it is write-ordered and blocked, stop now
+  if (obc->is_blocked() && write_ordered) {
+    // we're already doing something with this object
+    dout(20) << __func__ << " blocked on " << obc->obs.oi.soid << dendl;
+    return cache_result_t::NOOP;
+  }
+
+  vector<OSDOp> ops = op->get_req<MOSDOp>()->ops;
+  for (vector<OSDOp>::iterator p = ops.begin(); p != ops.end(); ++p) {
+    OSDOp& osd_op = *p;
+    ceph_osd_op& op = osd_op.op;
+    if (op.op == CEPH_OSD_OP_SET_REDIRECT ||
+	op.op == CEPH_OSD_OP_SET_CHUNK ||
+	op.op == CEPH_OSD_OP_UNSET_MANIFEST ||
+	op.op == CEPH_OSD_OP_TIER_PROMOTE ||
+	op.op == CEPH_OSD_OP_TIER_FLUSH ||
+	op.op == CEPH_OSD_OP_TIER_EVICT) {
+      return cache_result_t::NOOP;
+    }
+  }
+
+  switch (obc->obs.oi.manifest.type) {
+  case object_manifest_t::TYPE_REDIRECT:
+    if (op->may_write() || write_ordered) {
+      do_proxy_write(op, obc);
+    } else {
+      // promoted object
+      if (obc->obs.oi.size != 0) {
+	return cache_result_t::NOOP;
+      }
+      do_proxy_read(op, obc);
+    }
+    return cache_result_t::HANDLED_PROXY;
+  case object_manifest_t::TYPE_CHUNKED:
+    {
+      if (can_proxy_chunked_read(op, obc)) {
+	map<hobject_t,FlushOpRef>::iterator p = flush_ops.find(obc->obs.oi.soid);
+        if (p != flush_ops.end()) {
+          do_proxy_chunked_op(op, obc->obs.oi.soid, obc, true);
+          return cache_result_t::HANDLED_PROXY;
+        }
+	do_proxy_chunked_op(op, obc->obs.oi.soid, obc, write_ordered);
+	return cache_result_t::HANDLED_PROXY;
+      }
+
+      MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+      ceph_assert(m->get_type() == CEPH_MSG_OSD_OP);
+      hobject_t head = m->get_hobj();
+
+      if (is_degraded_or_backfilling_object(head)) {
+	dout(20) << __func__ << ": " << head << " is degraded, waiting" << dendl;
+	wait_for_degraded_object(head, op);
+	return cache_result_t::BLOCKED_RECOVERY;
+      }
+
+      if (m_scrubber->write_blocked_by_scrub(head)) {
+	dout(20) << __func__ << ": waiting for scrub" << dendl;
+	waiting_for_scrub.push_back(op);
+	op->mark_delayed("waiting for scrub");
+	return cache_result_t::BLOCKED_RECOVERY;
+      }
+      if (!check_laggy_requeue(op)) {
+	return cache_result_t::BLOCKED_RECOVERY;
+      }
+
+      for (auto& p : obc->obs.oi.manifest.chunk_map) {
+	if (p.second.is_missing()) {
+	  auto m = op->get_req<MOSDOp>();
+	  const object_locator_t oloc = m->get_object_locator();
+	  promote_object(obc, obc->obs.oi.soid, oloc, op, NULL);
+	  return cache_result_t::BLOCKED_PROMOTE;
+	}
+      }
+      return cache_result_t::NOOP;
+    }
+  default:
+    ceph_abort_msg("unrecognized manifest type");
+  }
+
+  return cache_result_t::NOOP;
+}
+
+void PrimaryLogPG::record_write_error(OpRequestRef op, const hobject_t &soid,
+				      MOSDOpReply *orig_reply, int r,
+				      OpContext *ctx_for_op_returns)
+{
+  dout(20) << __func__ << " r=" << r << dendl;
+  ceph_assert(op->may_write());
+  const osd_reqid_t &reqid = op->get_req<MOSDOp>()->get_reqid();
+  mempool::osd_pglog::list<pg_log_entry_t> entries;
+  entries.push_back(pg_log_entry_t(pg_log_entry_t::ERROR, soid,
+				   get_next_version(), eversion_t(), 0,
+				   reqid, utime_t(), r));
+  if (ctx_for_op_returns) {
+    entries.back().set_op_returns(*ctx_for_op_returns->ops);
+    dout(20) << __func__ << " op_returns=" << entries.back().op_returns << dendl;
+  }
+
+  struct OnComplete {
+    PrimaryLogPG *pg;
+    OpRequestRef op;
+    boost::intrusive_ptr<MOSDOpReply> orig_reply;
+    int r;
+    OnComplete(
+      PrimaryLogPG *pg,
+      OpRequestRef op,
+      MOSDOpReply *orig_reply,
+      int r)
+      : pg(pg), op(op),
+	orig_reply(orig_reply, false /* take over ref */), r(r)
+      {}
+    void operator()() {
+      ldpp_dout(pg, 20) << "finished " << __func__ << " r=" << r << dendl;
+      auto m = op->get_req<MOSDOp>();
+      MOSDOpReply *reply = orig_reply.detach();
+      ldpp_dout(pg, 10) << " sending commit on " << *m << " " << reply << dendl;
+      pg->osd->send_message_osd_client(reply, m->get_connection());
+    }
+  };
+
+  ObcLockManager lock_manager;
+  submit_log_entries(
+    entries,
+    std::move(lock_manager),
+    std::optional<std::function<void(void)> >(
+      OnComplete(this, op, orig_reply, r)),
+    op,
+    r);
+}
+
+PrimaryLogPG::cache_result_t PrimaryLogPG::maybe_handle_cache_detail(
+  OpRequestRef op,
+  bool write_ordered,
+  ObjectContextRef obc,
+  int r, hobject_t missing_oid,
+  bool must_promote,
+  bool in_hit_set,
+  ObjectContextRef *promote_obc)
+{
+  // return quickly if caching is not enabled
+  if (pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE)
+    return cache_result_t::NOOP;
+
+  if (op &&
+      op->get_req() &&
+      op->get_req()->get_type() == CEPH_MSG_OSD_OP &&
+      (op->get_req<MOSDOp>()->get_flags() &
+       CEPH_OSD_FLAG_IGNORE_CACHE)) {
+    dout(20) << __func__ << ": ignoring cache due to flag" << dendl;
+    return cache_result_t::NOOP;
+  }
+
+  must_promote = must_promote || op->need_promote();
+
+  if (obc)
+    dout(25) << __func__ << " " << obc->obs.oi << " "
+	     << (obc->obs.exists ? "exists" : "DNE")
+	     << " missing_oid " << missing_oid
+	     << " must_promote " << (int)must_promote
+	     << " in_hit_set " << (int)in_hit_set
+	     << dendl;
+  else
+    dout(25) << __func__ << " (no obc)"
+	     << " missing_oid " << missing_oid
+	     << " must_promote " << (int)must_promote
+	     << " in_hit_set " << (int)in_hit_set
+	     << dendl;
+
+  // if it is write-ordered and blocked, stop now
+  if (obc.get() && obc->is_blocked() && write_ordered) {
+    // we're already doing something with this object
+    dout(20) << __func__ << " blocked on " << obc->obs.oi.soid << dendl;
+    return cache_result_t::NOOP;
+  }
+
+  if (r == -ENOENT && missing_oid == hobject_t()) {
+    // we know this object is logically absent (e.g., an undefined clone)
+    return cache_result_t::NOOP;
+  }
+
+  if (obc.get() && obc->obs.exists) {
+    osd->logger->inc(l_osd_op_cache_hit);
+    return cache_result_t::NOOP;
+  }
+  if (!is_primary()) {
+    dout(20) << __func__ << " cache miss; ask the primary" << dendl;
+    osd->reply_op_error(op, -EAGAIN);
+    return cache_result_t::REPLIED_WITH_EAGAIN;
+  }
+
+  if (missing_oid == hobject_t() && obc.get()) {
+    missing_oid = obc->obs.oi.soid;
+  }
+
+  auto m = op->get_req<MOSDOp>();
+  const object_locator_t oloc = m->get_object_locator();
+
+  if (op->need_skip_handle_cache()) {
+    return cache_result_t::NOOP;
+  }
+
+  OpRequestRef promote_op;
+
+  switch (pool.info.cache_mode) {
+  case pg_pool_t::CACHEMODE_WRITEBACK:
+    if (agent_state &&
+	agent_state->evict_mode == TierAgentState::EVICT_MODE_FULL) {
+      if (!op->may_write() && !op->may_cache() &&
+	  !write_ordered && !must_promote) {
+	dout(20) << __func__ << " cache pool full, proxying read" << dendl;
+	do_proxy_read(op);
+	return cache_result_t::HANDLED_PROXY;
+      }
+      dout(20) << __func__ << " cache pool full, waiting" << dendl;
+      block_write_on_full_cache(missing_oid, op);
+      return cache_result_t::BLOCKED_FULL;
+    }
+
+    if (must_promote || (!hit_set && !op->need_skip_promote())) {
+      promote_object(obc, missing_oid, oloc, op, promote_obc);
+      return cache_result_t::BLOCKED_PROMOTE;
+    }
+
+    if (op->may_write() || op->may_cache()) {
+      do_proxy_write(op);
+
+      // Promote too?
+      if (!op->need_skip_promote() &&
+          maybe_promote(obc, missing_oid, oloc, in_hit_set,
+	              pool.info.min_write_recency_for_promote,
+		      OpRequestRef(),
+		      promote_obc)) {
+	return cache_result_t::BLOCKED_PROMOTE;
+      }
+      return cache_result_t::HANDLED_PROXY;
+    } else {
+      do_proxy_read(op);
+
+      // Avoid duplicate promotion
+      if (obc.get() && obc->is_blocked()) {
+	if (promote_obc)
+	  *promote_obc = obc;
+        return cache_result_t::BLOCKED_PROMOTE;
+      }
+
+      // Promote too?
+      if (!op->need_skip_promote()) {
+        (void)maybe_promote(obc, missing_oid, oloc, in_hit_set,
+                            pool.info.min_read_recency_for_promote,
+                            promote_op, promote_obc);
+      }
+
+      return cache_result_t::HANDLED_PROXY;
+    }
+    ceph_abort_msg("unreachable");
+    return cache_result_t::NOOP;
+
+  case pg_pool_t::CACHEMODE_READONLY:
+    // TODO: clean this case up
+    if (!obc.get() && r == -ENOENT) {
+      // we don't have the object and op's a read
+      promote_object(obc, missing_oid, oloc, op, promote_obc);
+      return cache_result_t::BLOCKED_PROMOTE;
+    }
+    if (!r) { // it must be a write
+      do_cache_redirect(op);
+      return cache_result_t::HANDLED_REDIRECT;
+    }
+    // crap, there was a failure of some kind
+    return cache_result_t::NOOP;
+
+  case pg_pool_t::CACHEMODE_FORWARD:
+    // this mode is deprecated; proxy instead
+  case pg_pool_t::CACHEMODE_PROXY:
+    if (!must_promote) {
+      if (op->may_write() || op->may_cache() || write_ordered) {
+	do_proxy_write(op);
+	return cache_result_t::HANDLED_PROXY;
+      } else {
+	do_proxy_read(op);
+	return cache_result_t::HANDLED_PROXY;
+      }
+    }
+    // ugh, we're forced to promote.
+    if (agent_state &&
+	agent_state->evict_mode == TierAgentState::EVICT_MODE_FULL) {
+      dout(20) << __func__ << " cache pool full, waiting" << dendl;
+      block_write_on_full_cache(missing_oid, op);
+      return cache_result_t::BLOCKED_FULL;
+    }
+    promote_object(obc, missing_oid, oloc, op, promote_obc);
+    return cache_result_t::BLOCKED_PROMOTE;
+
+  case pg_pool_t::CACHEMODE_READFORWARD:
+    // this mode is deprecated; proxy instead
+  case pg_pool_t::CACHEMODE_READPROXY:
+    // Do writeback to the cache tier for writes
+    if (op->may_write() || write_ordered || must_promote) {
+      if (agent_state &&
+	  agent_state->evict_mode == TierAgentState::EVICT_MODE_FULL) {
+	dout(20) << __func__ << " cache pool full, waiting" << dendl;
+	block_write_on_full_cache(missing_oid, op);
+	return cache_result_t::BLOCKED_FULL;
+      }
+      promote_object(obc, missing_oid, oloc, op, promote_obc);
+      return cache_result_t::BLOCKED_PROMOTE;
+    }
+
+    // If it is a read, we can read, we need to proxy it
+    do_proxy_read(op);
+    return cache_result_t::HANDLED_PROXY;
+
+  default:
+    ceph_abort_msg("unrecognized cache_mode");
+  }
+  return cache_result_t::NOOP;
+}
+
+bool PrimaryLogPG::maybe_promote(ObjectContextRef obc,
+				 const hobject_t& missing_oid,
+				 const object_locator_t& oloc,
+				 bool in_hit_set,
+				 uint32_t recency,
+				 OpRequestRef promote_op,
+				 ObjectContextRef *promote_obc)
+{
+  dout(20) << __func__ << " missing_oid " << missing_oid
+	   << "  in_hit_set " << in_hit_set << dendl;
+
+  switch (recency) {
+  case 0:
+    break;
+  case 1:
+    // Check if in the current hit set
+    if (in_hit_set) {
+      break;
+    } else {
+      // not promoting
+      return false;
+    }
+    break;
+  default:
+    {
+      unsigned count = (int)in_hit_set;
+      if (count) {
+	// Check if in other hit sets
+	const hobject_t& oid = obc.get() ? obc->obs.oi.soid : missing_oid;
+	for (map<time_t,HitSetRef>::reverse_iterator itor =
+	       agent_state->hit_set_map.rbegin();
+	     itor != agent_state->hit_set_map.rend();
+	     ++itor) {
+	  if (!itor->second->contains(oid)) {
+	    break;
+	  }
+	  ++count;
+	  if (count >= recency) {
+	    break;
+	  }
+	}
+      }
+      if (count >= recency) {
+	break;
+      }
+      return false;	// not promoting
+    }
+    break;
+  }
+
+  if (osd->promote_throttle()) {
+    dout(10) << __func__ << " promote throttled" << dendl;
+    return false;
+  }
+  promote_object(obc, missing_oid, oloc, promote_op, promote_obc);
+  return true;
+}
+
+void PrimaryLogPG::do_cache_redirect(OpRequestRef op)
+{
+  auto m = op->get_req<MOSDOp>();
+  int flags = m->get_flags() & (CEPH_OSD_FLAG_ACK|CEPH_OSD_FLAG_ONDISK);
+  MOSDOpReply *reply = new MOSDOpReply(m, -ENOENT, get_osdmap_epoch(),
+                                       flags, false);
+  request_redirect_t redir(m->get_object_locator(), pool.info.tier_of);
+  reply->set_redirect(redir);
+  dout(10) << "sending redirect to pool " << pool.info.tier_of << " for op "
+	   << op << dendl;
+  m->get_connection()->send_message(reply);
+  return;
+}
+
+struct C_ProxyRead : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  PrimaryLogPG::ProxyReadOpRef prdop;
+  utime_t start;
+  C_ProxyRead(PrimaryLogPG *p, hobject_t o, epoch_t lpr,
+	     const PrimaryLogPG::ProxyReadOpRef& prd)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), prdop(prd), start(ceph_clock_now())
+  {}
+  void finish(int r) override {
+    if (prdop->canceled)
+      return;
+    std::scoped_lock locker{*pg};
+    if (prdop->canceled) {
+      return;
+    }
+    if (last_peering_reset == pg->get_last_peering_reset()) {
+      pg->finish_proxy_read(oid, tid, r);
+      pg->osd->logger->tinc(l_osd_tier_r_lat, ceph_clock_now() - start);
+    }
+  }
+};
+
+struct C_ProxyChunkRead : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  PrimaryLogPG::ProxyReadOpRef prdop;
+  utime_t start;
+  ObjectOperation *obj_op;
+  int op_index = 0;
+  uint64_t req_offset = 0;
+  ObjectContextRef obc;
+  uint64_t req_total_len = 0;
+  C_ProxyChunkRead(PrimaryLogPG *p, hobject_t o, epoch_t lpr,
+		   const PrimaryLogPG::ProxyReadOpRef& prd)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), prdop(prd), start(ceph_clock_now()), obj_op(NULL)
+  {}
+  void finish(int r) override {
+    if (prdop->canceled)
+      return;
+    std::scoped_lock locker{*pg};
+    if (prdop->canceled) {
+      return;
+    }
+    if (last_peering_reset == pg->get_last_peering_reset()) {
+      if (r >= 0) {
+	if (!prdop->ops[op_index].outdata.length()) {
+	  ceph_assert(req_total_len);
+	  bufferlist list;
+	  bufferptr bptr(req_total_len);
+	  list.push_back(std::move(bptr));
+	  prdop->ops[op_index].outdata.append(list);
+	}
+	ceph_assert(obj_op);
+	uint64_t copy_offset;
+	if (req_offset >= prdop->ops[op_index].op.extent.offset) {
+	  copy_offset = req_offset - prdop->ops[op_index].op.extent.offset;
+	} else {
+	  copy_offset = 0;
+	}
+	prdop->ops[op_index].outdata.begin(copy_offset).copy_in(
+          obj_op->ops[0].outdata.length(),
+          obj_op->ops[0].outdata.c_str());
+      }
+
+      pg->finish_proxy_read(oid, tid, r);
+      pg->osd->logger->tinc(l_osd_tier_r_lat, ceph_clock_now() - start);
+      if (obj_op) {
+	delete obj_op;
+      }
+    }
+  }
+};
+
+void PrimaryLogPG::do_proxy_read(OpRequestRef op, ObjectContextRef obc)
+{
+  // NOTE: non-const here because the ProxyReadOp needs mutable refs to
+  // stash the result in the request's OSDOp vector
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  object_locator_t oloc;
+  hobject_t soid;
+  /* extensible tier */
+  if (obc && obc->obs.exists && obc->obs.oi.has_manifest()) {
+    switch (obc->obs.oi.manifest.type) {
+      case object_manifest_t::TYPE_REDIRECT:
+	  oloc = object_locator_t(obc->obs.oi.manifest.redirect_target);
+	  soid = obc->obs.oi.manifest.redirect_target;
+	  break;
+      default:
+	ceph_abort_msg("unrecognized manifest type");
+    }
+  } else {
+  /* proxy */
+    soid = m->get_hobj();
+    oloc = object_locator_t(m->get_object_locator());
+    oloc.pool = pool.info.tier_of;
+  }
+  unsigned flags = CEPH_OSD_FLAG_IGNORE_CACHE | CEPH_OSD_FLAG_IGNORE_OVERLAY;
+
+  // pass through some original flags that make sense.
+  //  - leave out redirection and balancing flags since we are
+  //    already proxying through the primary
+  //  - leave off read/write/exec flags that are derived from the op
+  flags |= m->get_flags() & (CEPH_OSD_FLAG_RWORDERED |
+			     CEPH_OSD_FLAG_ORDERSNAP |
+			     CEPH_OSD_FLAG_ENFORCE_SNAPC |
+			     CEPH_OSD_FLAG_MAP_SNAP_CLONE);
+
+  dout(10) << __func__ << " Start proxy read for " << *m << dendl;
+
+  ProxyReadOpRef prdop(std::make_shared<ProxyReadOp>(op, soid, m->ops));
+
+  ObjectOperation obj_op;
+  obj_op.dup(prdop->ops);
+
+  if (pool.info.cache_mode == pg_pool_t::CACHEMODE_WRITEBACK &&
+      (agent_state && agent_state->evict_mode != TierAgentState::EVICT_MODE_FULL)) {
+    for (unsigned i = 0; i < obj_op.ops.size(); i++) {
+      ceph_osd_op op = obj_op.ops[i].op;
+      switch (op.op) {
+	case CEPH_OSD_OP_READ:
+	case CEPH_OSD_OP_SYNC_READ:
+	case CEPH_OSD_OP_SPARSE_READ:
+	case CEPH_OSD_OP_CHECKSUM:
+	case CEPH_OSD_OP_CMPEXT:
+	  op.flags = (op.flags | CEPH_OSD_OP_FLAG_FADVISE_SEQUENTIAL) &
+		       ~(CEPH_OSD_OP_FLAG_FADVISE_DONTNEED | CEPH_OSD_OP_FLAG_FADVISE_NOCACHE);
+      }
+    }
+  }
+
+  C_ProxyRead *fin = new C_ProxyRead(this, soid, get_last_peering_reset(),
+				     prdop);
+  ceph_tid_t tid = osd->objecter->read(
+    soid.oid, oloc, obj_op,
+    m->get_snapid(), NULL,
+    flags, new C_OnFinisher(fin, osd->get_objecter_finisher(get_pg_shard())),
+    &prdop->user_version,
+    &prdop->data_offset,
+    m->get_features());
+  fin->tid = tid;
+  prdop->objecter_tid = tid;
+  proxyread_ops[tid] = prdop;
+  in_progress_proxy_ops[soid].push_back(op);
+}
+
+void PrimaryLogPG::finish_proxy_read(hobject_t oid, ceph_tid_t tid, int r)
+{
+  dout(10) << __func__ << " " << oid << " tid " << tid
+	   << " " << cpp_strerror(r) << dendl;
+
+  map<ceph_tid_t, ProxyReadOpRef>::iterator p = proxyread_ops.find(tid);
+  if (p == proxyread_ops.end()) {
+    dout(10) << __func__ << " no proxyread_op found" << dendl;
+    return;
+  }
+  ProxyReadOpRef prdop = p->second;
+  if (tid != prdop->objecter_tid) {
+    dout(10) << __func__ << " tid " << tid << " != prdop " << prdop
+	     << " tid " << prdop->objecter_tid << dendl;
+    return;
+  }
+  if (oid != prdop->soid) {
+    dout(10) << __func__ << " oid " << oid << " != prdop " << prdop
+	     << " soid " << prdop->soid << dendl;
+    return;
+  }
+  proxyread_ops.erase(tid);
+
+  map<hobject_t, list<OpRequestRef>>::iterator q = in_progress_proxy_ops.find(oid);
+  if (q == in_progress_proxy_ops.end()) {
+    dout(10) << __func__ << " no in_progress_proxy_ops found" << dendl;
+    return;
+  }
+  ceph_assert(q->second.size());
+  list<OpRequestRef>::iterator it = std::find(q->second.begin(),
+                                              q->second.end(),
+					      prdop->op);
+  ceph_assert(it != q->second.end());
+  OpRequestRef op = *it;
+  q->second.erase(it);
+  if (q->second.size() == 0) {
+    in_progress_proxy_ops.erase(oid);
+  } else if (std::find(q->second.begin(),
+                       q->second.end(),
+                       prdop->op) != q->second.end()) {
+    /* multiple read case */
+    dout(20) << __func__ << " " << oid << " is not completed  " << dendl;
+    return;
+  }
+
+  osd->logger->inc(l_osd_tier_proxy_read);
+
+  auto m = op->get_req<MOSDOp>();
+  OpContext *ctx = new OpContext(op, m->get_reqid(), &prdop->ops, this);
+  ctx->reply = new MOSDOpReply(m, 0, get_osdmap_epoch(), 0, false);
+  ctx->user_at_version = prdop->user_version;
+  ctx->data_off = prdop->data_offset;
+  ctx->ignore_log_op_stats = true;
+  complete_read_ctx(r, ctx);
+}
+
+void PrimaryLogPG::kick_proxy_ops_blocked(hobject_t& soid)
+{
+  map<hobject_t, list<OpRequestRef>>::iterator p = in_progress_proxy_ops.find(soid);
+  if (p == in_progress_proxy_ops.end())
+    return;
+
+  list<OpRequestRef>& ls = p->second;
+  dout(10) << __func__ << " " << soid << " requeuing " << ls.size() << " requests" << dendl;
+  requeue_ops(ls);
+  in_progress_proxy_ops.erase(p);
+}
+
+void PrimaryLogPG::cancel_proxy_read(ProxyReadOpRef prdop,
+				     vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << " " << prdop->soid << dendl;
+  prdop->canceled = true;
+
+  // cancel objecter op, if we can
+  if (prdop->objecter_tid) {
+    tids->push_back(prdop->objecter_tid);
+    for (uint32_t i = 0; i < prdop->ops.size(); i++) {
+      prdop->ops[i].outdata.clear();
+    }
+    proxyread_ops.erase(prdop->objecter_tid);
+    prdop->objecter_tid = 0;
+  }
+}
+
+void PrimaryLogPG::cancel_proxy_ops(bool requeue, vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << dendl;
+
+  // cancel proxy reads
+  map<ceph_tid_t, ProxyReadOpRef>::iterator p = proxyread_ops.begin();
+  while (p != proxyread_ops.end()) {
+    cancel_proxy_read((p++)->second, tids);
+  }
+
+  // cancel proxy writes
+  map<ceph_tid_t, ProxyWriteOpRef>::iterator q = proxywrite_ops.begin();
+  while (q != proxywrite_ops.end()) {
+    cancel_proxy_write((q++)->second, tids);
+  }
+
+  if (requeue) {
+    map<hobject_t, list<OpRequestRef>>::iterator p =
+      in_progress_proxy_ops.begin();
+    while (p != in_progress_proxy_ops.end()) {
+      list<OpRequestRef>& ls = p->second;
+      dout(10) << __func__ << " " << p->first << " requeuing " << ls.size()
+	       << " requests" << dendl;
+      requeue_ops(ls);
+      in_progress_proxy_ops.erase(p++);
+    }
+  } else {
+    in_progress_proxy_ops.clear();
+  }
+}
+
+struct C_ProxyWrite_Commit : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  PrimaryLogPG::ProxyWriteOpRef pwop;
+  C_ProxyWrite_Commit(PrimaryLogPG *p, hobject_t o, epoch_t lpr,
+	              const PrimaryLogPG::ProxyWriteOpRef& pw)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), pwop(pw)
+  {}
+  void finish(int r) override {
+    if (pwop->canceled)
+      return;
+    std::scoped_lock locker{*pg};
+    if (pwop->canceled) {
+      return;
+    }
+    if (last_peering_reset == pg->get_last_peering_reset()) {
+      pg->finish_proxy_write(oid, tid, r);
+    }
+  }
+};
+
+void PrimaryLogPG::do_proxy_write(OpRequestRef op, ObjectContextRef obc)
+{
+  // NOTE: non-const because ProxyWriteOp takes a mutable ref
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  object_locator_t oloc;
+  SnapContext snapc(m->get_snap_seq(), m->get_snaps());
+  hobject_t soid;
+  /* extensible tier */
+  if (obc && obc->obs.exists && obc->obs.oi.has_manifest()) {
+    switch (obc->obs.oi.manifest.type) {
+      case object_manifest_t::TYPE_REDIRECT:
+	  oloc = object_locator_t(obc->obs.oi.manifest.redirect_target);
+	  soid = obc->obs.oi.manifest.redirect_target;
+	  break;
+      default:
+	ceph_abort_msg("unrecognized manifest type");
+    }
+  } else {
+  /* proxy */
+    soid = m->get_hobj();
+    oloc = object_locator_t(m->get_object_locator());
+    oloc.pool = pool.info.tier_of;
+  }
+
+  unsigned flags = CEPH_OSD_FLAG_IGNORE_CACHE | CEPH_OSD_FLAG_IGNORE_OVERLAY;
+  if (!(op->may_write() || op->may_cache())) {
+    flags |= CEPH_OSD_FLAG_RWORDERED;
+  }
+  if (op->allows_returnvec()) {
+    flags |= CEPH_OSD_FLAG_RETURNVEC;
+  }
+
+  dout(10) << __func__ << " Start proxy write for " << *m << dendl;
+
+  ProxyWriteOpRef pwop(std::make_shared<ProxyWriteOp>(op, soid, m->ops, m->get_reqid()));
+  pwop->ctx = new OpContext(op, m->get_reqid(), &pwop->ops, this);
+  pwop->mtime = m->get_mtime();
+
+  ObjectOperation obj_op;
+  obj_op.dup(pwop->ops);
+
+  C_ProxyWrite_Commit *fin = new C_ProxyWrite_Commit(
+      this, soid, get_last_peering_reset(), pwop);
+  ceph_tid_t tid = osd->objecter->mutate(
+    soid.oid, oloc, obj_op, snapc,
+    ceph::real_clock::from_ceph_timespec(pwop->mtime),
+    flags, new C_OnFinisher(fin, osd->get_objecter_finisher(get_pg_shard())),
+    &pwop->user_version, pwop->reqid);
+  fin->tid = tid;
+  pwop->objecter_tid = tid;
+  proxywrite_ops[tid] = pwop;
+  in_progress_proxy_ops[soid].push_back(op);
+}
+
+void PrimaryLogPG::do_proxy_chunked_op(OpRequestRef op, const hobject_t& missing_oid,
+				       ObjectContextRef obc, bool write_ordered)
+{
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  OSDOp *osd_op = NULL;
+  for (unsigned int i = 0; i < m->ops.size(); i++) {
+    osd_op = &m->ops[i];
+    uint64_t cursor = osd_op->op.extent.offset;
+    uint64_t op_length = osd_op->op.extent.offset + osd_op->op.extent.length;
+    uint64_t chunk_length = 0, chunk_index = 0, req_len = 0;
+    object_manifest_t *manifest = &obc->obs.oi.manifest;
+    map <uint64_t, map<uint64_t, uint64_t>> chunk_read;
+
+    while (cursor < op_length) {
+      chunk_index = 0;
+      chunk_length = 0;
+      /* find the right chunk position for cursor */
+      for (auto &p : manifest->chunk_map) {
+	if (p.first <= cursor && p.first + p.second.length > cursor) {
+	  chunk_length = p.second.length;
+	  chunk_index = p.first;
+	  break;
+	}
+      }
+      /* no index */
+      if (!chunk_index && !chunk_length) {
+	if (cursor == osd_op->op.extent.offset) {
+	  OpContext *ctx = new OpContext(op, m->get_reqid(), &m->ops, this);
+	  ctx->reply = new MOSDOpReply(m, 0, get_osdmap_epoch(), 0, false);
+	  ctx->data_off = osd_op->op.extent.offset;
+	  ctx->ignore_log_op_stats = true;
+	  complete_read_ctx(0, ctx);
+	}
+	break;
+      }
+      uint64_t next_length = chunk_length;
+      /* the size to read -> | op length | */
+      /*		     | 	 a chunk   | */
+      if (cursor + next_length > op_length) {
+	next_length = op_length - cursor;
+      }
+      /* the size to read -> |   op length   | */
+      /*		     | 	 a chunk | */
+      if (cursor + next_length > chunk_index + chunk_length) {
+	next_length = chunk_index + chunk_length - cursor;
+      }
+
+      chunk_read[cursor] = {{chunk_index, next_length}};
+      cursor += next_length;
+    }
+
+    req_len = cursor - osd_op->op.extent.offset;
+    for (auto &p : chunk_read) {
+      auto chunks = p.second.begin();
+      dout(20) << __func__ << " chunk_index: " << chunks->first
+	      << " next_length: " << chunks->second << " cursor: "
+	      << p.first << dendl;
+      do_proxy_chunked_read(op, obc, i, chunks->first, p.first, chunks->second, req_len, write_ordered);
+    }
+  }
+}
+
+struct RefCountCallback : public Context {
+public:
+  PrimaryLogPG::OpContext *ctx;
+  OSDOp& osd_op;
+  bool requeue = false;
+
+  RefCountCallback(PrimaryLogPG::OpContext *ctx, OSDOp &osd_op)
+    : ctx(ctx), osd_op(osd_op) {}
+  void finish(int r) override {
+    // NB: caller must already have pg->lock held
+    ctx->obc->stop_block();
+    ctx->pg->kick_object_context_blocked(ctx->obc);
+    if (r >= 0) {
+      osd_op.rval = 0;
+      ctx->pg->execute_ctx(ctx);
+    } else {
+       // on cancel simply toss op out,
+       // or requeue as requested
+      if (r != -ECANCELED) {
+        if (ctx->op)
+          ctx->pg->osd->reply_op_error(ctx->op, r);
+      } else if (requeue) {
+        if (ctx->op)
+          ctx->pg->requeue_op(ctx->op);
+      }
+      ctx->pg->close_op_ctx(ctx);
+    }
+  }
+  void set_requeue(bool rq) {
+    requeue = rq;
+  }
+};
+
+struct SetManifestFinisher : public PrimaryLogPG::OpFinisher {
+  OSDOp& osd_op;
+
+  explicit SetManifestFinisher(OSDOp& osd_op) : osd_op(osd_op) {
+  }
+
+  int execute() override {
+    return osd_op.rval;
+  }
+};
+
+struct C_SetManifestRefCountDone : public Context {
+  PrimaryLogPGRef pg;
+  PrimaryLogPG::ManifestOpRef mop;
+  hobject_t soid;
+  C_SetManifestRefCountDone(PrimaryLogPG *p,
+    PrimaryLogPG::ManifestOpRef mop, hobject_t soid) : 
+    pg(p), mop(mop), soid(soid) {}
+  void finish(int r) override {
+    if (r == -ECANCELED)
+      return;
+    std::scoped_lock locker{*pg};
+    auto it = pg->manifest_ops.find(soid);
+    if (it == pg->manifest_ops.end()) {
+      // raced with cancel_manifest_ops
+      return;
+    }
+    if (it->second->cb) {
+      it->second->cb->complete(r);
+    }
+    pg->manifest_ops.erase(it);
+    mop.reset();
+  }
+};
+
+struct C_SetDedupChunks : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  uint64_t offset;
+  
+  C_SetDedupChunks(PrimaryLogPG *p, hobject_t o, epoch_t lpr, uint64_t offset)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), offset(offset)
+  {}
+  void finish(int r) override {
+    if (r == -ECANCELED)
+      return;
+    std::scoped_lock locker{*pg};
+    if (last_peering_reset != pg->get_last_peering_reset()) {
+      return;
+    }
+    pg->finish_set_dedup(oid, r, tid, offset);
+  }
+};
+
+void PrimaryLogPG::cancel_manifest_ops(bool requeue, vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << dendl;
+  auto p = manifest_ops.begin();
+  while (p != manifest_ops.end()) {
+    auto mop = p->second;
+    // cancel objecter op, if we can
+    if (mop->objecter_tid) {
+      tids->push_back(mop->objecter_tid);
+      mop->objecter_tid = 0;
+    }
+    if (mop->cb) {
+      mop->cb->set_requeue(requeue);
+      mop->cb->complete(-ECANCELED);
+    }
+    manifest_ops.erase(p++);
+  }
+}
+
+int PrimaryLogPG::get_manifest_ref_count(ObjectContextRef obc, std::string& fp_oid, OpRequestRef op) 
+{
+  int cnt = 0;
+  // head
+  for (auto &p : obc->obs.oi.manifest.chunk_map) {
+    if (p.second.oid.oid.name == fp_oid) {
+      cnt++;
+    }
+  }
+  // snap
+  SnapSet& ss = obc->ssc->snapset;
+  const OSDMapRef& osdmap = get_osdmap();
+  for (vector<snapid_t>::const_reverse_iterator p = ss.clones.rbegin();
+      p != ss.clones.rend();
+      ++p) {
+    object_ref_delta_t refs;
+    ObjectContextRef obc_l = nullptr;
+    ObjectContextRef obc_g = nullptr;
+    hobject_t clone_oid = obc->obs.oi.soid;
+    clone_oid.snap = *p;
+    if (osdmap->in_removed_snaps_queue(info.pgid.pgid.pool(), *p)) {
+      return -EBUSY;
+    }
+    ObjectContextRef clone_obc = get_object_context(clone_oid, false);
+    if (!clone_obc) {
+      break;
+    }
+    if (recover_adjacent_clones(clone_obc, op)) {
+      return -EAGAIN;
+    }
+    get_adjacent_clones(clone_obc, obc_l, obc_g);
+    clone_obc->obs.oi.manifest.calc_refs_to_inc_on_set(
+      obc_g ? &(obc_g->obs.oi.manifest) : nullptr ,
+      nullptr,
+      refs);
+    for (auto p = refs.begin(); p != refs.end(); ++p) {
+      if (p->first.oid.name == fp_oid && p->second > 0) {
+	cnt += p->second;
+      }
+    }
+  }
+
+  return cnt;
+}
+
+bool PrimaryLogPG::recover_adjacent_clones(ObjectContextRef obc, OpRequestRef op)
+{
+  if (!obc->ssc || !obc->ssc->snapset.clones.size()) {
+    return false;
+  }
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  bool has_manifest_op = std::any_of(
+    begin(m->ops),
+    end(m->ops),
+    [](const auto& osd_op) {
+       return osd_op.op.op == CEPH_OSD_OP_SET_CHUNK;
+    });
+  if (!obc->obs.oi.manifest.is_chunked() && !has_manifest_op) {
+    return false;
+  }
+  ceph_assert(op);
+
+  const SnapSet& snapset = obc->ssc->snapset;
+  auto s = std::find(snapset.clones.begin(), snapset.clones.end(), obc->obs.oi.soid.snap);
+  auto is_unreadable_snap = [this, obc, &snapset, op](auto iter) -> bool {
+    hobject_t cid = obc->obs.oi.soid;
+    cid.snap = (iter == snapset.clones.end()) ? snapid_t(CEPH_NOSNAP) : *iter;
+    if (is_unreadable_object(cid)) {
+      dout(10) << __func__ << ": clone " << cid
+	       << " is unreadable, waiting" << dendl;
+      wait_for_unreadable_object(cid, op);
+      return true;
+    }
+    return false;
+  };
+  if (s != snapset.clones.begin()) {
+    if (is_unreadable_snap(s - 1)) {
+      return true;
+    }
+  }
+  if (s != snapset.clones.end()) {
+    if (is_unreadable_snap(s + 1)) {
+      return true;
+    }
+  }
+  return false;
+}
+
+ObjectContextRef PrimaryLogPG::get_prev_clone_obc(ObjectContextRef obc)
+{
+  auto s = std::find(obc->ssc->snapset.clones.begin(), obc->ssc->snapset.clones.end(),
+		    obc->obs.oi.soid.snap);
+  if (s != obc->ssc->snapset.clones.begin()) {
+    auto s_iter = s - 1;
+    hobject_t cid = obc->obs.oi.soid;
+    object_ref_delta_t refs;
+    cid.snap = *s_iter;
+    ObjectContextRef cobc = get_object_context(cid, false, NULL);
+    ceph_assert(cobc);
+    return cobc;
+  }
+  return nullptr;
+}
+
+void PrimaryLogPG::dec_refcount(const hobject_t& soid, const object_ref_delta_t& refs)
+{
+  for (auto p = refs.begin(); p != refs.end(); ++p) {
+    int dec_ref_count = p->second;
+    ceph_assert(dec_ref_count < 0);
+    while (dec_ref_count < 0) {
+      dout(10) << __func__ << ": decrement reference on offset oid: " << p->first << dendl;
+      refcount_manifest(soid, p->first, 
+			refcount_t::DECREMENT_REF, NULL, std::nullopt);
+      dec_ref_count++;
+    }
+  }
+}
+
+
+void PrimaryLogPG::get_adjacent_clones(ObjectContextRef src_obc, 
+				       ObjectContextRef& _l, ObjectContextRef& _g) 
+{
+  const SnapSet& snapset = src_obc->ssc->snapset;
+  const object_info_t& oi = src_obc->obs.oi;
+
+  auto get_context = [this, &oi, &snapset](auto iter)
+    -> ObjectContextRef {
+    hobject_t cid = oi.soid;
+    cid.snap = (iter == snapset.clones.end()) ? snapid_t(CEPH_NOSNAP) : *iter;
+    ObjectContextRef obc = get_object_context(cid, false, NULL);
+    ceph_assert(obc);
+    return obc;
+  };
+
+  // check adjacent clones
+  auto s = std::find(snapset.clones.begin(), snapset.clones.end(), oi.soid.snap);
+
+  // We *must* find the clone iff it's not head,
+  // let s == snapset.clones.end() mean head
+  ceph_assert((s == snapset.clones.end()) == oi.soid.is_head());
+
+  if (s != snapset.clones.begin()) {
+    _l = get_context(s - 1);
+  }
+
+  if (s != snapset.clones.end()) {
+    _g = get_context(s + 1);
+  }
+}
+
+bool PrimaryLogPG::inc_refcount_by_set(OpContext* ctx, object_manifest_t& set_chunk,
+				       OSDOp& osd_op)
+{
+  object_ref_delta_t refs;
+  ObjectContextRef obc_l, obc_g;
+  get_adjacent_clones(ctx->obc, obc_l, obc_g);
+  set_chunk.calc_refs_to_inc_on_set(
+    obc_l ? &(obc_l->obs.oi.manifest) : nullptr,
+    obc_g ? &(obc_g->obs.oi.manifest) : nullptr,
+    refs);
+  if (!refs.is_empty()) {
+    /* This is called by set-chunk, so we only consider a single chunk for the time being */
+    ceph_assert(refs.size() == 1);
+    auto p = refs.begin();
+    int inc_ref_count = p->second;
+    if (inc_ref_count > 0) {
+      /*
+       * In set-chunk case, the first thing we should do is to increment
+       * the reference the targe object has prior to update object_manifest in object_info_t.
+       * So, call directly refcount_manifest.
+       */
+      ManifestOpRef mop = std::make_shared<ManifestOp>(new RefCountCallback(ctx, osd_op));
+      C_SetManifestRefCountDone* fin = new C_SetManifestRefCountDone(this, mop, ctx->obs->oi.soid);
+      ceph_tid_t tid = refcount_manifest(ctx->obs->oi.soid, p->first,
+					  refcount_t::INCREMENT_REF, fin, std::nullopt);
+      mop->objecter_tid = tid;
+      manifest_ops[ctx->obs->oi.soid] = mop;
+      ctx->obc->start_block();
+      return true;
+    } else if (inc_ref_count < 0) {
+      hobject_t src = ctx->obs->oi.soid;
+      hobject_t tgt = p->first;
+      ctx->register_on_commit(
+	  [src, tgt, this](){
+	    refcount_manifest(src, tgt, refcount_t::DECREMENT_REF, NULL, std::nullopt);
+	  });
+      return false;
+    }
+  }
+
+  return false;
+}
+
+void PrimaryLogPG::dec_refcount_by_dirty(OpContext* ctx)
+{
+  object_ref_delta_t refs;
+  ObjectContextRef cobc = nullptr;
+  ObjectContextRef obc = ctx->obc;
+  for (auto &p : ctx->obs->oi.manifest.chunk_map) {
+    if (!ctx->clean_regions.is_clean_region(p.first, p.second.length)) {
+      ctx->new_obs.oi.manifest.chunk_map.erase(p.first);
+      if (ctx->new_obs.oi.manifest.chunk_map.empty()) {
+	ctx->new_obs.oi.manifest.type = object_manifest_t::TYPE_NONE;
+	ctx->new_obs.oi.clear_flag(object_info_t::FLAG_MANIFEST);
+	ctx->delta_stats.num_objects_manifest--;
+      }
+    }
+  }
+  // Look over previous snapshot, then figure out whether updated chunk needs to be deleted
+  cobc = get_prev_clone_obc(obc);
+  obc->obs.oi.manifest.calc_refs_to_drop_on_modify(
+    cobc ? &cobc->obs.oi.manifest : nullptr,
+    ctx->clean_regions,
+    refs);
+  if (!refs.is_empty()) {
+    hobject_t soid = obc->obs.oi.soid;
+    ctx->register_on_commit(
+      [soid, this, refs](){
+	dec_refcount(soid, refs);
+      });
+  }
+}
+
+void PrimaryLogPG::dec_all_refcount_manifest(const object_info_t& oi, OpContext* ctx)
+{
+  ceph_assert(oi.has_manifest());
+  ceph_assert(ctx->obc->ssc);
+
+  if (oi.manifest.is_chunked()) {
+    object_ref_delta_t refs;
+    ObjectContextRef obc_l, obc_g;
+    get_adjacent_clones(ctx->obc, obc_l, obc_g);
+    oi.manifest.calc_refs_to_drop_on_removal(
+      obc_l ? &(obc_l->obs.oi.manifest) : nullptr,
+      obc_g ? &(obc_g->obs.oi.manifest) : nullptr,
+      refs);
+
+    if (!refs.is_empty()) {
+      hobject_t soid = ctx->obc->obs.oi.soid;
+      ctx->register_on_commit(
+	[soid, this, refs](){
+	  dec_refcount(soid, refs);
+	});
+    }
+  } else if (oi.manifest.is_redirect() &&
+	     oi.test_flag(object_info_t::FLAG_REDIRECT_HAS_REFERENCE)) {
+    ctx->register_on_commit(
+      [oi, this](){
+	refcount_manifest(oi.soid, oi.manifest.redirect_target, 
+			  refcount_t::DECREMENT_REF, NULL, std::nullopt);
+      });
+  }
+}
+
+ceph_tid_t PrimaryLogPG::refcount_manifest(hobject_t src_soid, hobject_t tgt_soid, refcount_t type,
+                                     Context *cb, std::optional<bufferlist> chunk)
+{
+  unsigned flags = CEPH_OSD_FLAG_IGNORE_CACHE | CEPH_OSD_FLAG_IGNORE_OVERLAY |
+                   CEPH_OSD_FLAG_RWORDERED;
+
+  dout(10) << __func__ << " Start refcount from " << src_soid
+           << " to " << tgt_soid << dendl;
+
+  ObjectOperation obj_op;
+  bufferlist in;
+  if (type == refcount_t::INCREMENT_REF) {
+    cls_cas_chunk_get_ref_op call;
+    call.source = src_soid.get_head();
+    ::encode(call, in);
+    obj_op.call("cas", "chunk_get_ref", in);
+  } else if (type == refcount_t::DECREMENT_REF) {
+    cls_cas_chunk_put_ref_op call;
+    call.source = src_soid.get_head();
+    ::encode(call, in);
+    obj_op.call("cas", "chunk_put_ref", in);
+  } else if (type == refcount_t::CREATE_OR_GET_REF) {
+    cls_cas_chunk_create_or_get_ref_op get_call;
+    get_call.source = src_soid.get_head();
+    ceph_assert(chunk);
+    get_call.data = move(*chunk);
+    ::encode(get_call, in);
+    obj_op.call("cas", "chunk_create_or_get_ref", in);
+  } else {
+    ceph_assert(0 == "unrecognized type");
+  }
+
+  Context *c = nullptr;
+  if (cb) {
+    c = new C_OnFinisher(cb, osd->get_objecter_finisher(get_pg_shard()));
+  }
+
+  object_locator_t oloc(tgt_soid);
+  ObjectContextRef src_obc = get_object_context(src_soid, false, NULL);
+  ceph_assert(src_obc);
+  auto tid = osd->objecter->mutate(
+    tgt_soid.oid, oloc, obj_op, SnapContext(),
+    ceph::real_clock::from_ceph_timespec(src_obc->obs.oi.mtime),
+    flags, c);
+  return tid;
+}
+
+void PrimaryLogPG::do_proxy_chunked_read(OpRequestRef op, ObjectContextRef obc, int op_index,
+					 uint64_t chunk_index, uint64_t req_offset, uint64_t req_length,
+					 uint64_t req_total_len, bool write_ordered)
+{
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  object_manifest_t *manifest = &obc->obs.oi.manifest;
+  if (!manifest->chunk_map.count(chunk_index)) {
+    return;
+  }
+  uint64_t chunk_length = manifest->chunk_map[chunk_index].length;
+  hobject_t soid = manifest->chunk_map[chunk_index].oid;
+  hobject_t ori_soid = m->get_hobj();
+  object_locator_t oloc(soid);
+  unsigned flags = CEPH_OSD_FLAG_IGNORE_CACHE | CEPH_OSD_FLAG_IGNORE_OVERLAY;
+  if (write_ordered) {
+    flags |= CEPH_OSD_FLAG_RWORDERED;
+  }
+
+  if (!chunk_length || soid == hobject_t()) {
+    return;
+  }
+
+  /* same as do_proxy_read() */
+  flags |= m->get_flags() & (CEPH_OSD_FLAG_RWORDERED |
+			     CEPH_OSD_FLAG_ORDERSNAP |
+			     CEPH_OSD_FLAG_ENFORCE_SNAPC |
+			     CEPH_OSD_FLAG_MAP_SNAP_CLONE);
+
+  dout(10) << __func__ << " Start do chunk proxy read for " << *m
+	   << " index: " << op_index << " oid: " << soid.oid.name << " req_offset: " << req_offset
+	   << " req_length: " << req_length << dendl;
+
+  ProxyReadOpRef prdop(std::make_shared<ProxyReadOp>(op, ori_soid, m->ops));
+
+  ObjectOperation *pobj_op = new ObjectOperation;
+  OSDOp &osd_op = pobj_op->add_op(m->ops[op_index].op.op);
+
+  if (chunk_index <= req_offset) {
+    osd_op.op.extent.offset = manifest->chunk_map[chunk_index].offset + req_offset - chunk_index;
+  } else {
+    ceph_abort_msg("chunk_index > req_offset");
+  }
+  osd_op.op.extent.length = req_length;
+
+  ObjectOperation obj_op;
+  obj_op.dup(pobj_op->ops);
+
+  C_ProxyChunkRead *fin = new C_ProxyChunkRead(this, ori_soid, get_last_peering_reset(),
+					       prdop);
+  fin->obj_op = pobj_op;
+  fin->op_index = op_index;
+  fin->req_offset = req_offset;
+  fin->obc = obc;
+  fin->req_total_len = req_total_len;
+
+  ceph_tid_t tid = osd->objecter->read(
+    soid.oid, oloc, obj_op,
+    m->get_snapid(), NULL,
+    flags, new C_OnFinisher(fin, osd->get_objecter_finisher(get_pg_shard())),
+    &prdop->user_version,
+    &prdop->data_offset,
+    m->get_features());
+  fin->tid = tid;
+  prdop->objecter_tid = tid;
+  proxyread_ops[tid] = prdop;
+  in_progress_proxy_ops[ori_soid].push_back(op);
+}
+
+bool PrimaryLogPG::can_proxy_chunked_read(OpRequestRef op, ObjectContextRef obc)
+{
+  MOSDOp *m = static_cast<MOSDOp*>(op->get_nonconst_req());
+  OSDOp *osd_op = NULL;
+  bool ret = true;
+  for (unsigned int i = 0; i < m->ops.size(); i++) {
+    osd_op = &m->ops[i];
+    ceph_osd_op op = osd_op->op;
+    switch (op.op) {
+      case CEPH_OSD_OP_READ:
+      case CEPH_OSD_OP_SYNC_READ: {
+	uint64_t cursor = osd_op->op.extent.offset;
+	uint64_t remain = osd_op->op.extent.length;
+
+	/* requested chunks exist in chunk_map ? */
+	for (auto &p : obc->obs.oi.manifest.chunk_map) {
+	  if (p.first <= cursor && p.first + p.second.length > cursor) {
+	    if (!p.second.is_missing()) {
+	      return false;
+	    }
+	    if (p.second.length >= remain) {
+	      remain = 0;
+	      break;
+	    } else {
+	      remain = remain - p.second.length;
+	    }
+	    cursor += p.second.length;
+	  }
+	}
+
+	if (remain) {
+	  dout(20) << __func__ << " requested chunks don't exist in chunk_map " << dendl;
+	  return false;
+	}
+	continue;
+      }
+      default:
+	return false;
+    }
+  }
+  return ret;
+}
+
+void PrimaryLogPG::finish_proxy_write(hobject_t oid, ceph_tid_t tid, int r)
+{
+  dout(10) << __func__ << " " << oid << " tid " << tid
+	   << " " << cpp_strerror(r) << dendl;
+
+  map<ceph_tid_t, ProxyWriteOpRef>::iterator p = proxywrite_ops.find(tid);
+  if (p == proxywrite_ops.end()) {
+    dout(10) << __func__ << " no proxywrite_op found" << dendl;
+    return;
+  }
+  ProxyWriteOpRef pwop = p->second;
+  ceph_assert(tid == pwop->objecter_tid);
+  ceph_assert(oid == pwop->soid);
+
+  proxywrite_ops.erase(tid);
+
+  map<hobject_t, list<OpRequestRef> >::iterator q = in_progress_proxy_ops.find(oid);
+  if (q == in_progress_proxy_ops.end()) {
+    dout(10) << __func__ << " no in_progress_proxy_ops found" << dendl;
+    delete pwop->ctx;
+    pwop->ctx = NULL;
+    return;
+  }
+  list<OpRequestRef>& in_progress_op = q->second;
+  ceph_assert(in_progress_op.size());
+  list<OpRequestRef>::iterator it = std::find(in_progress_op.begin(),
+                                              in_progress_op.end(),
+					      pwop->op);
+  ceph_assert(it != in_progress_op.end());
+  in_progress_op.erase(it);
+  if (in_progress_op.size() == 0) {
+    in_progress_proxy_ops.erase(oid);
+  } else if (std::find(in_progress_op.begin(),
+                        in_progress_op.end(),
+                        pwop->op) != in_progress_op.end()) {
+    if (pwop->ctx)
+      delete pwop->ctx;
+    pwop->ctx = NULL;
+    dout(20) << __func__ << " " << oid << " tid " << tid
+            << " in_progress_op size: "
+            << in_progress_op.size() << dendl;
+    return;
+  }
+
+  osd->logger->inc(l_osd_tier_proxy_write);
+
+  auto m = pwop->op->get_req<MOSDOp>();
+  ceph_assert(m != NULL);
+
+  if (!pwop->sent_reply) {
+    // send commit.
+    assert(pwop->ctx->reply == nullptr);
+    MOSDOpReply *reply = new MOSDOpReply(m, r, get_osdmap_epoch(), 0,
+					 true /* we claim it below */);
+    reply->set_reply_versions(eversion_t(), pwop->user_version);
+    reply->add_flags(CEPH_OSD_FLAG_ACK | CEPH_OSD_FLAG_ONDISK);
+    reply->claim_op_out_data(pwop->ops);
+    dout(10) << " sending commit on " << pwop << " " << reply << dendl;
+    osd->send_message_osd_client(reply, m->get_connection());
+    pwop->sent_reply = true;
+    pwop->ctx->op->mark_commit_sent();
+  }
+
+  delete pwop->ctx;
+  pwop->ctx = NULL;
+}
+
+void PrimaryLogPG::cancel_proxy_write(ProxyWriteOpRef pwop,
+				      vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << " " << pwop->soid << dendl;
+  pwop->canceled = true;
+
+  // cancel objecter op, if we can
+  if (pwop->objecter_tid) {
+    tids->push_back(pwop->objecter_tid);
+    delete pwop->ctx;
+    pwop->ctx = NULL;
+    proxywrite_ops.erase(pwop->objecter_tid);
+    pwop->objecter_tid = 0;
+  }
+}
+
+class PromoteCallback: public PrimaryLogPG::CopyCallback {
+  ObjectContextRef obc;
+  PrimaryLogPG *pg;
+  utime_t start;
+public:
+  PromoteCallback(ObjectContextRef obc_, PrimaryLogPG *pg_)
+    : obc(obc_),
+      pg(pg_),
+      start(ceph_clock_now()) {}
+
+  void finish(PrimaryLogPG::CopyCallbackResults results) override {
+    PrimaryLogPG::CopyResults *results_data = results.get<1>();
+    int r = results.get<0>();
+    pg->finish_promote(r, results_data, obc);
+    pg->osd->logger->tinc(l_osd_tier_promote_lat, ceph_clock_now() - start);
+  }
+};
+
+class PromoteManifestCallback: public PrimaryLogPG::CopyCallback {
+  ObjectContextRef obc;
+  PrimaryLogPG *pg;
+  utime_t start;
+  PrimaryLogPG::OpContext *ctx;
+  PrimaryLogPG::CopyCallbackResults promote_results;
+public:
+  PromoteManifestCallback(ObjectContextRef obc_, PrimaryLogPG *pg_, PrimaryLogPG::OpContext *ctx = NULL)
+    : obc(obc_),
+      pg(pg_),
+      start(ceph_clock_now()), ctx(ctx) {}
+
+  void finish(PrimaryLogPG::CopyCallbackResults results) override {
+    PrimaryLogPG::CopyResults *results_data = results.get<1>();
+    int r = results.get<0>();
+    if (ctx) {
+      promote_results = results;
+      pg->execute_ctx(ctx);
+    } else {
+      pg->finish_promote_manifest(r, results_data, obc);
+    }
+    pg->osd->logger->tinc(l_osd_tier_promote_lat, ceph_clock_now() - start);
+  }
+  friend struct PromoteFinisher;
+};
+
+struct PromoteFinisher : public PrimaryLogPG::OpFinisher {
+  PromoteManifestCallback *promote_callback;
+
+  explicit PromoteFinisher(PromoteManifestCallback *promote_callback)
+    : promote_callback(promote_callback) {
+  }
+
+  int execute() override {
+    if (promote_callback->ctx->obc->obs.oi.manifest.is_redirect()) {
+      promote_callback->ctx->pg->finish_promote(promote_callback->promote_results.get<0>(),
+						promote_callback->promote_results.get<1>(),
+						promote_callback->obc);
+    } else if (promote_callback->ctx->obc->obs.oi.manifest.is_chunked()) {
+      promote_callback->ctx->pg->finish_promote_manifest(promote_callback->promote_results.get<0>(),
+						promote_callback->promote_results.get<1>(),
+						promote_callback->obc);
+    } else {
+      ceph_abort_msg("unrecognized manifest type");
+    }
+    return 0;
+  }
+};
+
+void PrimaryLogPG::promote_object(ObjectContextRef obc,
+				  const hobject_t& missing_oid,
+				  const object_locator_t& oloc,
+				  OpRequestRef op,
+				  ObjectContextRef *promote_obc)
+{
+  hobject_t hoid = obc ? obc->obs.oi.soid : missing_oid;
+  ceph_assert(hoid != hobject_t());
+  if (m_scrubber->write_blocked_by_scrub(hoid)) {
+    dout(10) << __func__ << " " << hoid
+	     << " blocked by scrub" << dendl;
+    if (op) {
+      waiting_for_scrub.push_back(op);
+      op->mark_delayed("waiting for scrub");
+      dout(10) << __func__ << " " << hoid
+	       << " placing op in waiting_for_scrub" << dendl;
+    } else {
+      dout(10) << __func__ << " " << hoid
+	       << " no op, dropping on the floor" << dendl;
+    }
+    return;
+  }
+  if (op && !check_laggy_requeue(op)) {
+    return;
+  }
+  if (!obc) { // we need to create an ObjectContext
+    ceph_assert(missing_oid != hobject_t());
+    obc = get_object_context(missing_oid, true);
+  }
+  if (promote_obc)
+    *promote_obc = obc;
+
+  /*
+   * Before promote complete, if there are  proxy-reads for the object,
+   * for this case we don't use DONTNEED.
+   */
+  unsigned src_fadvise_flags = LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL;
+  map<hobject_t, list<OpRequestRef>>::iterator q = in_progress_proxy_ops.find(obc->obs.oi.soid);
+  if (q == in_progress_proxy_ops.end()) {
+    src_fadvise_flags |= LIBRADOS_OP_FLAG_FADVISE_DONTNEED;
+  }
+
+  CopyCallback *cb;
+  object_locator_t my_oloc;
+  hobject_t src_hoid;
+  if (!obc->obs.oi.has_manifest()) {
+    my_oloc = oloc;
+    my_oloc.pool = pool.info.tier_of;
+    src_hoid = obc->obs.oi.soid;
+    cb = new PromoteCallback(obc, this);
+  } else {
+    if (obc->obs.oi.manifest.is_chunked()) {
+      src_hoid = obc->obs.oi.soid;
+      cb = new PromoteManifestCallback(obc, this);
+    } else if (obc->obs.oi.manifest.is_redirect()) {
+      object_locator_t src_oloc(obc->obs.oi.manifest.redirect_target);
+      my_oloc = src_oloc;
+      src_hoid = obc->obs.oi.manifest.redirect_target;
+      cb = new PromoteCallback(obc, this);
+    } else {
+      ceph_abort_msg("unrecognized manifest type");
+    }
+  }
+
+  unsigned flags = CEPH_OSD_COPY_FROM_FLAG_IGNORE_OVERLAY |
+                   CEPH_OSD_COPY_FROM_FLAG_IGNORE_CACHE |
+                   CEPH_OSD_COPY_FROM_FLAG_MAP_SNAP_CLONE |
+                   CEPH_OSD_COPY_FROM_FLAG_RWORDERED;
+  start_copy(cb, obc, src_hoid, my_oloc, 0, flags,
+	     obc->obs.oi.soid.snap == CEPH_NOSNAP,
+	     src_fadvise_flags, 0);
+
+  ceph_assert(obc->is_blocked());
+
+  if (op)
+    wait_for_blocked_object(obc->obs.oi.soid, op);
+
+  recovery_state.update_stats(
+    [](auto &history, auto &stats) {
+      stats.stats.sum.num_promote++;
+      return false;
+    });
+}
+
+void PrimaryLogPG::execute_ctx(OpContext *ctx)
+{
+  FUNCTRACE(cct);
+  dout(10) << __func__ << " " << ctx << dendl;
+  ctx->reset_obs(ctx->obc);
+  ctx->update_log_only = false; // reset in case finish_copyfrom() is re-running execute_ctx
+  OpRequestRef op = ctx->op;
+  auto m = op->get_req<MOSDOp>();
+  ObjectContextRef obc = ctx->obc;
+  const hobject_t& soid = obc->obs.oi.soid;
+
+  // this method must be idempotent since we may call it several times
+  // before we finally apply the resulting transaction.
+  ctx->op_t.reset(new PGTransaction);
+
+  if (op->may_write() || op->may_cache()) {
+    // snap
+    if (!(m->has_flag(CEPH_OSD_FLAG_ENFORCE_SNAPC)) &&
+	pool.info.is_pool_snaps_mode()) {
+      // use pool's snapc
+      ctx->snapc = pool.snapc;
+    } else {
+      // client specified snapc
+      ctx->snapc.seq = m->get_snap_seq();
+      ctx->snapc.snaps = m->get_snaps();
+      filter_snapc(ctx->snapc.snaps);
+    }
+    if ((m->has_flag(CEPH_OSD_FLAG_ORDERSNAP)) &&
+	ctx->snapc.seq < obc->ssc->snapset.seq) {
+      dout(10) << " ORDERSNAP flag set and snapc seq " << ctx->snapc.seq
+	       << " < snapset seq " << obc->ssc->snapset.seq
+	       << " on " << obc->obs.oi.soid << dendl;
+      reply_ctx(ctx, -EOLDSNAPC);
+      return;
+    }
+
+    // version
+    ctx->at_version = get_next_version();
+    ctx->mtime = m->get_mtime();
+
+    dout(10) << __func__ << " " << soid << " " << *ctx->ops
+	     << " ov " << obc->obs.oi.version << " av " << ctx->at_version
+	     << " snapc " << ctx->snapc
+	     << " snapset " << obc->ssc->snapset
+	     << dendl;
+  } else {
+    dout(10) << __func__ << " " << soid << " " << *ctx->ops
+	     << " ov " << obc->obs.oi.version
+	     << dendl;
+  }
+
+  if (!ctx->user_at_version)
+    ctx->user_at_version = obc->obs.oi.user_version;
+  dout(30) << __func__ << " user_at_version " << ctx->user_at_version << dendl;
+
+  {
+#ifdef WITH_LTTNG
+    osd_reqid_t reqid = ctx->op->get_reqid();
+#endif
+    tracepoint(osd, prepare_tx_enter, reqid.name._type,
+        reqid.name._num, reqid.tid, reqid.inc);
+  }
+#ifdef HAVE_JAEGER
+  if (ctx->op->osd_parent_span) {
+    auto execute_span = jaeger_tracing::child_span(__func__, ctx->op->osd_parent_span);
+  }
+#endif
+
+  int result = prepare_transaction(ctx);
+
+  {
+#ifdef WITH_LTTNG
+    osd_reqid_t reqid = ctx->op->get_reqid();
+#endif
+    tracepoint(osd, prepare_tx_exit, reqid.name._type,
+        reqid.name._num, reqid.tid, reqid.inc);
+  }
+
+  bool pending_async_reads = !ctx->pending_async_reads.empty();
+  if (result == -EINPROGRESS || pending_async_reads) {
+    // come back later.
+    if (pending_async_reads) {
+      ceph_assert(pool.info.is_erasure());
+      in_progress_async_reads.push_back(make_pair(op, ctx));
+      ctx->start_async_reads(this);
+    }
+    return;
+  }
+
+  if (result == -EAGAIN) {
+    // clean up after the ctx
+    close_op_ctx(ctx);
+    return;
+  }
+
+  bool ignore_out_data = false;
+  if (!ctx->op_t->empty() &&
+      op->may_write() &&
+      result >= 0) {
+    // successful update
+    if (ctx->op->allows_returnvec()) {
+      // enforce reasonable bound on the return buffer sizes
+      for (auto& i : *ctx->ops) {
+	if (i.outdata.length() > cct->_conf->osd_max_write_op_reply_len) {
+	  dout(10) << __func__ << " op " << i << " outdata overflow" << dendl;
+	  result = -EOVERFLOW;  // overall result is overflow
+	  i.rval = -EOVERFLOW;
+	  i.outdata.clear();
+	}
+      }
+    } else {
+      // legacy behavior -- zero result and return data etc.
+      ignore_out_data = true;
+      result = 0;
+    }
+  }
+
+  // prepare the reply
+  ctx->reply = new MOSDOpReply(m, result, get_osdmap_epoch(), 0,
+			       ignore_out_data);
+  dout(20) << __func__ << " alloc reply " << ctx->reply
+	   << " result " << result << dendl;
+
+  // read or error?
+  if ((ctx->op_t->empty() || result < 0) && !ctx->update_log_only) {
+    // finish side-effects
+    if (result >= 0)
+      do_osd_op_effects(ctx, m->get_connection());
+
+    complete_read_ctx(result, ctx);
+    return;
+  }
+
+  ctx->reply->set_reply_versions(ctx->at_version, ctx->user_at_version);
+
+  ceph_assert(op->may_write() || op->may_cache());
+
+  // trim log?
+  recovery_state.update_trim_to();
+
+  // verify that we are doing this in order?
+  if (cct->_conf->osd_debug_op_order && m->get_source().is_client() &&
+      !pool.info.is_tier() && !pool.info.has_tiers()) {
+    map<client_t,ceph_tid_t>& cm = debug_op_order[obc->obs.oi.soid];
+    ceph_tid_t t = m->get_tid();
+    client_t n = m->get_source().num();
+    map<client_t,ceph_tid_t>::iterator p = cm.find(n);
+    if (p == cm.end()) {
+      dout(20) << " op order client." << n << " tid " << t << " (first)" << dendl;
+      cm[n] = t;
+    } else {
+      dout(20) << " op order client." << n << " tid " << t << " last was " << p->second << dendl;
+      if (p->second > t) {
+	derr << "bad op order, already applied " << p->second << " > this " << t << dendl;
+	ceph_abort_msg("out of order op");
+      }
+      p->second = t;
+    }
+  }
+
+  if (ctx->update_log_only) {
+    if (result >= 0)
+      do_osd_op_effects(ctx, m->get_connection());
+
+    dout(20) << __func__ << " update_log_only -- result=" << result << dendl;
+    // save just what we need from ctx
+    MOSDOpReply *reply = ctx->reply;
+    ctx->reply = nullptr;
+    reply->get_header().data_off = (ctx->data_off ? *ctx->data_off : 0);
+
+    if (result == -ENOENT) {
+      reply->set_enoent_reply_versions(info.last_update,
+				       info.last_user_version);
+    }
+    reply->add_flags(CEPH_OSD_FLAG_ACK | CEPH_OSD_FLAG_ONDISK);
+    // append to pg log for dup detection - don't save buffers for now
+    record_write_error(op, soid, reply, result,
+		       ctx->op->allows_returnvec() ? ctx : nullptr);
+    close_op_ctx(ctx);
+    return;
+  }
+
+  // no need to capture PG ref, repop cancel will handle that
+  // Can capture the ctx by pointer, it's owned by the repop
+  ctx->register_on_commit(
+    [m, ctx, this](){
+      if (ctx->op)
+	log_op_stats(*ctx->op, ctx->bytes_written, ctx->bytes_read);
+
+      if (m && !ctx->sent_reply) {
+	MOSDOpReply *reply = ctx->reply;
+	ctx->reply = nullptr;
+	reply->add_flags(CEPH_OSD_FLAG_ACK | CEPH_OSD_FLAG_ONDISK);
+	dout(10) << " sending reply on " << *m << " " << reply << dendl;
+	osd->send_message_osd_client(reply, m->get_connection());
+	ctx->sent_reply = true;
+	ctx->op->mark_commit_sent();
+      }
+    });
+  ctx->register_on_success(
+    [ctx, this]() {
+      do_osd_op_effects(
+	ctx,
+	ctx->op ? ctx->op->get_req()->get_connection() :
+	ConnectionRef());
+    });
+  ctx->register_on_finish(
+    [ctx]() {
+      delete ctx;
+    });
+
+  // issue replica writes
+  ceph_tid_t rep_tid = osd->get_tid();
+
+  RepGather *repop = new_repop(ctx, obc, rep_tid);
+
+  issue_repop(repop, ctx);
+  eval_repop(repop);
+  repop->put();
+}
+
+void PrimaryLogPG::close_op_ctx(OpContext *ctx) {
+  release_object_locks(ctx->lock_manager);
+
+  ctx->op_t.reset();
+
+  for (auto p = ctx->on_finish.begin(); p != ctx->on_finish.end();
+       ctx->on_finish.erase(p++)) {
+    (*p)();
+  }
+  delete ctx;
+}
+
+void PrimaryLogPG::reply_ctx(OpContext *ctx, int r)
+{
+  if (ctx->op)
+    osd->reply_op_error(ctx->op, r);
+  close_op_ctx(ctx);
+}
+
+void PrimaryLogPG::log_op_stats(const OpRequest& op,
+				const uint64_t inb,
+				const uint64_t outb)
+{
+  auto m = op.get_req<MOSDOp>();
+  const utime_t now = ceph_clock_now();
+
+  const utime_t latency = now - m->get_recv_stamp();
+  const utime_t process_latency = now - op.get_dequeued_time();
+
+  osd->logger->inc(l_osd_op);
+
+  osd->logger->inc(l_osd_op_outb, outb);
+  osd->logger->inc(l_osd_op_inb, inb);
+  osd->logger->tinc(l_osd_op_lat, latency);
+  osd->logger->tinc(l_osd_op_process_lat, process_latency);
+
+  if (op.may_read() && op.may_write()) {
+    osd->logger->inc(l_osd_op_rw);
+    osd->logger->inc(l_osd_op_rw_inb, inb);
+    osd->logger->inc(l_osd_op_rw_outb, outb);
+    osd->logger->tinc(l_osd_op_rw_lat, latency);
+    osd->logger->hinc(l_osd_op_rw_lat_inb_hist, latency.to_nsec(), inb);
+    osd->logger->hinc(l_osd_op_rw_lat_outb_hist, latency.to_nsec(), outb);
+    osd->logger->tinc(l_osd_op_rw_process_lat, process_latency);
+  } else if (op.may_read()) {
+    osd->logger->inc(l_osd_op_r);
+    osd->logger->inc(l_osd_op_r_outb, outb);
+    osd->logger->tinc(l_osd_op_r_lat, latency);
+    osd->logger->hinc(l_osd_op_r_lat_outb_hist, latency.to_nsec(), outb);
+    osd->logger->tinc(l_osd_op_r_process_lat, process_latency);
+  } else if (op.may_write() || op.may_cache()) {
+    osd->logger->inc(l_osd_op_w);
+    osd->logger->inc(l_osd_op_w_inb, inb);
+    osd->logger->tinc(l_osd_op_w_lat, latency);
+    osd->logger->hinc(l_osd_op_w_lat_inb_hist, latency.to_nsec(), inb);
+    osd->logger->tinc(l_osd_op_w_process_lat, process_latency);
+  } else {
+    ceph_abort();
+  }
+
+  dout(15) << "log_op_stats " << *m
+	   << " inb " << inb
+	   << " outb " << outb
+	   << " lat " << latency << dendl;
+
+  if (m_dynamic_perf_stats.is_enabled()) {
+    m_dynamic_perf_stats.add(osd, info, op, inb, outb, latency);
+  }
+}
+
+void PrimaryLogPG::set_dynamic_perf_stats_queries(
+    const std::list<OSDPerfMetricQuery> &queries)
+{
+  m_dynamic_perf_stats.set_queries(queries);
+}
+
+void PrimaryLogPG::get_dynamic_perf_stats(DynamicPerfStats *stats)
+{
+  std::swap(m_dynamic_perf_stats, *stats);
+}
+
+void PrimaryLogPG::do_scan(
+  OpRequestRef op,
+  ThreadPool::TPHandle &handle)
+{
+  auto m = op->get_req<MOSDPGScan>();
+  ceph_assert(m->get_type() == MSG_OSD_PG_SCAN);
+  dout(10) << "do_scan " << *m << dendl;
+
+  op->mark_started();
+
+  switch (m->op) {
+  case MOSDPGScan::OP_SCAN_GET_DIGEST:
+    {
+      auto dpp = get_dpp();
+      if (osd->check_backfill_full(dpp)) {
+	dout(1) << __func__ << ": Canceling backfill: Full." << dendl;
+	queue_peering_event(
+	  PGPeeringEventRef(
+	    std::make_shared<PGPeeringEvent>(
+	      get_osdmap_epoch(),
+	      get_osdmap_epoch(),
+	      PeeringState::BackfillTooFull())));
+	return;
+      }
+
+      BackfillInterval bi;
+      bi.begin = m->begin;
+      // No need to flush, there won't be any in progress writes occuring
+      // past m->begin
+      scan_range(
+	cct->_conf->osd_backfill_scan_min,
+	cct->_conf->osd_backfill_scan_max,
+	&bi,
+	handle);
+      MOSDPGScan *reply = new MOSDPGScan(
+	MOSDPGScan::OP_SCAN_DIGEST,
+	pg_whoami,
+	get_osdmap_epoch(), m->query_epoch,
+	spg_t(info.pgid.pgid, get_primary().shard), bi.begin, bi.end);
+      encode(bi.objects, reply->get_data());
+      osd->send_message_osd_cluster(reply, m->get_connection());
+    }
+    break;
+
+  case MOSDPGScan::OP_SCAN_DIGEST:
+    {
+      pg_shard_t from = m->from;
+
+      // Check that from is in backfill_targets vector
+      ceph_assert(is_backfill_target(from));
+
+      BackfillInterval& bi = peer_backfill_info[from];
+      bi.begin = m->begin;
+      bi.end = m->end;
+      auto p = m->get_data().cbegin();
+
+      // take care to preserve ordering!
+      bi.clear_objects();
+      decode_noclear(bi.objects, p);
+      dout(10) << __func__ << " bi.begin=" << bi.begin << " bi.end=" << bi.end
+               << " bi.objects.size()=" << bi.objects.size() << dendl;
+
+      if (waiting_on_backfill.erase(from)) {
+	if (waiting_on_backfill.empty()) {
+	  ceph_assert(
+	    peer_backfill_info.size() ==
+	    get_backfill_targets().size());
+	  finish_recovery_op(hobject_t::get_max());
+	}
+      } else {
+	// we canceled backfill for a while due to a too full, and this
+	// is an extra response from a non-too-full peer
+	dout(20) << __func__ << " canceled backfill (too full?)" << dendl;
+      }
+    }
+    break;
+  }
+}
+
+void PrimaryLogPG::do_backfill(OpRequestRef op)
+{
+  auto m = op->get_req<MOSDPGBackfill>();
+  ceph_assert(m->get_type() == MSG_OSD_PG_BACKFILL);
+  dout(10) << "do_backfill " << *m << dendl;
+
+  op->mark_started();
+
+  switch (m->op) {
+  case MOSDPGBackfill::OP_BACKFILL_FINISH:
+    {
+      ceph_assert(cct->_conf->osd_kill_backfill_at != 1);
+
+      MOSDPGBackfill *reply = new MOSDPGBackfill(
+	MOSDPGBackfill::OP_BACKFILL_FINISH_ACK,
+	get_osdmap_epoch(),
+	m->query_epoch,
+	spg_t(info.pgid.pgid, get_primary().shard));
+      reply->set_priority(get_recovery_op_priority());
+      osd->send_message_osd_cluster(reply, m->get_connection());
+      queue_peering_event(
+	PGPeeringEventRef(
+	  std::make_shared<PGPeeringEvent>(
+	    get_osdmap_epoch(),
+	    get_osdmap_epoch(),
+	    RecoveryDone())));
+    }
+    // fall-thru
+
+  case MOSDPGBackfill::OP_BACKFILL_PROGRESS:
+    {
+      ceph_assert(cct->_conf->osd_kill_backfill_at != 2);
+
+      ObjectStore::Transaction t;
+      recovery_state.update_backfill_progress(
+	m->last_backfill,
+	m->stats,
+	m->op == MOSDPGBackfill::OP_BACKFILL_PROGRESS,
+	t);
+
+      int tr = osd->store->queue_transaction(ch, std::move(t), NULL);
+      ceph_assert(tr == 0);
+    }
+    break;
+
+  case MOSDPGBackfill::OP_BACKFILL_FINISH_ACK:
+    {
+      ceph_assert(is_primary());
+      ceph_assert(cct->_conf->osd_kill_backfill_at != 3);
+      finish_recovery_op(hobject_t::get_max());
+    }
+    break;
+  }
+}
+
+void PrimaryLogPG::do_backfill_remove(OpRequestRef op)
+{
+  const MOSDPGBackfillRemove *m = static_cast<const MOSDPGBackfillRemove*>(
+    op->get_req());
+  ceph_assert(m->get_type() == MSG_OSD_PG_BACKFILL_REMOVE);
+  dout(7) << __func__ << " " << m->ls << dendl;
+
+  op->mark_started();
+
+  ObjectStore::Transaction t;
+  for (auto& p : m->ls) {
+    if (is_remote_backfilling()) {
+      struct stat st;
+      int r = osd->store->stat(ch, ghobject_t(p.first, ghobject_t::NO_GEN,
+                               pg_whoami.shard) , &st);
+      if (r == 0) {
+        sub_local_num_bytes(st.st_size);
+        int64_t usersize;
+        if (pool.info.is_erasure()) {
+          bufferlist bv;
+	  int r = osd->store->getattr(
+	      ch,
+              ghobject_t(p.first, ghobject_t::NO_GEN, pg_whoami.shard),
+	      OI_ATTR,
+	      bv);
+	  if (r >= 0) {
+	    object_info_t oi(bv);
+            usersize = oi.size * pgbackend->get_ec_data_chunk_count();
+          } else {
+            dout(0) << __func__ << " " << ghobject_t(p.first, ghobject_t::NO_GEN, pg_whoami.shard)
+                    << " can't get object info" << dendl;
+            usersize = 0;
+          }
+        } else {
+          usersize = st.st_size;
+        }
+        sub_num_bytes(usersize);
+        dout(10) << __func__ << " " << ghobject_t(p.first, ghobject_t::NO_GEN, pg_whoami.shard)
+                 << " sub actual data by " << st.st_size
+                 << " sub num_bytes by " << usersize
+                 << dendl;
+      }
+    }
+    remove_snap_mapped_object(t, p.first);
+  }
+  int r = osd->store->queue_transaction(ch, std::move(t), NULL);
+  ceph_assert(r == 0);
+}
+
+int PrimaryLogPG::trim_object(
+  bool first, const hobject_t &coid, snapid_t snap_to_trim,
+  PrimaryLogPG::OpContextUPtr *ctxp)
+{
+  *ctxp = NULL;
+
+  // load clone info
+  bufferlist bl;
+  ObjectContextRef obc = get_object_context(coid, false, NULL);
+  if (!obc || !obc->ssc || !obc->ssc->exists) {
+    osd->clog->error() << __func__ << ": Can not trim " << coid
+      << " repair needed " << (obc ? "(no obc->ssc or !exists)" : "(no obc)");
+    return -ENOENT;
+  }
+
+  hobject_t head_oid = coid.get_head();
+  ObjectContextRef head_obc = get_object_context(head_oid, false);
+  if (!head_obc) {
+    osd->clog->error() << __func__ << ": Can not trim " << coid
+      << " repair needed, no snapset obc for " << head_oid;
+    return -ENOENT;
+  }
+
+  SnapSet& snapset = obc->ssc->snapset;
+
+  object_info_t &coi = obc->obs.oi;
+  auto citer = snapset.clone_snaps.find(coid.snap);
+  if (citer == snapset.clone_snaps.end()) {
+    osd->clog->error() << "No clone_snaps in snapset " << snapset
+		       << " for object " << coid << "\n";
+    return -ENOENT;
+  }
+  set<snapid_t> old_snaps(citer->second.begin(), citer->second.end());
+  if (old_snaps.empty()) {
+    osd->clog->error() << "No object info snaps for object " << coid;
+    return -ENOENT;
+  }
+
+  dout(10) << coid << " old_snaps " << old_snaps
+	   << " old snapset " << snapset << dendl;
+  if (snapset.seq == 0) {
+    osd->clog->error() << "No snapset.seq for object " << coid;
+    return -ENOENT;
+  }
+
+  set<snapid_t> new_snaps;
+  const OSDMapRef& osdmap = get_osdmap();
+  for (set<snapid_t>::iterator i = old_snaps.begin();
+       i != old_snaps.end();
+       ++i) {
+    if (!osdmap->in_removed_snaps_queue(info.pgid.pgid.pool(), *i) &&
+	*i != snap_to_trim) {
+      new_snaps.insert(*i);
+    }
+  }
+
+  vector<snapid_t>::iterator p = snapset.clones.end();
+
+  if (new_snaps.empty()) {
+    p = std::find(snapset.clones.begin(), snapset.clones.end(), coid.snap);
+    if (p == snapset.clones.end()) {
+      osd->clog->error() << "Snap " << coid.snap << " not in clones";
+      return -ENOENT;
+    }
+  }
+
+  OpContextUPtr ctx = simple_opc_create(obc);
+  ctx->head_obc = head_obc;
+
+  if (!ctx->lock_manager.get_snaptrimmer_write(
+	coid,
+	obc,
+	first)) {
+    close_op_ctx(ctx.release());
+    dout(10) << __func__ << ": Unable to get a wlock on " << coid << dendl;
+    return -ENOLCK;
+  }
+
+  if (!ctx->lock_manager.get_snaptrimmer_write(
+	head_oid,
+	head_obc,
+	first)) {
+    close_op_ctx(ctx.release());
+    dout(10) << __func__ << ": Unable to get a wlock on " << head_oid << dendl;
+    return -ENOLCK;
+  }
+
+  ctx->at_version = get_next_version();
+
+  PGTransaction *t = ctx->op_t.get();
+
+  if (new_snaps.empty()) {
+    // remove clone
+    dout(10) << coid << " snaps " << old_snaps << " -> "
+	     << new_snaps << " ... deleting" << dendl;
+
+    // ...from snapset
+    ceph_assert(p != snapset.clones.end());
+
+    snapid_t last = coid.snap;
+    ctx->delta_stats.num_bytes -= snapset.get_clone_bytes(last);
+
+    if (p != snapset.clones.begin()) {
+      // not the oldest... merge overlap into next older clone
+      vector<snapid_t>::iterator n = p - 1;
+      hobject_t prev_coid = coid;
+      prev_coid.snap = *n;
+      bool adjust_prev_bytes = is_present_clone(prev_coid);
+
+      if (adjust_prev_bytes)
+	ctx->delta_stats.num_bytes -= snapset.get_clone_bytes(*n);
+
+      snapset.clone_overlap[*n].intersection_of(
+	snapset.clone_overlap[*p]);
+
+      if (adjust_prev_bytes)
+	ctx->delta_stats.num_bytes += snapset.get_clone_bytes(*n);
+    }
+    ctx->delta_stats.num_objects--;
+    if (coi.is_dirty())
+      ctx->delta_stats.num_objects_dirty--;
+    if (coi.is_omap())
+      ctx->delta_stats.num_objects_omap--;
+    if (coi.is_whiteout()) {
+      dout(20) << __func__ << " trimming whiteout on " << coid << dendl;
+      ctx->delta_stats.num_whiteouts--;
+    }
+    ctx->delta_stats.num_object_clones--;
+    if (coi.is_cache_pinned())
+      ctx->delta_stats.num_objects_pinned--;
+    if (coi.has_manifest()) {
+      dec_all_refcount_manifest(coi, ctx.get());
+      ctx->delta_stats.num_objects_manifest--;
+    }
+    obc->obs.exists = false;
+
+    snapset.clones.erase(p);
+    snapset.clone_overlap.erase(last);
+    snapset.clone_size.erase(last);
+    snapset.clone_snaps.erase(last);
+
+    ctx->log.push_back(
+      pg_log_entry_t(
+	pg_log_entry_t::DELETE,
+	coid,
+	ctx->at_version,
+	ctx->obs->oi.version,
+	0,
+	osd_reqid_t(),
+	ctx->mtime,
+	0)
+      );
+    t->remove(coid);
+    t->update_snaps(
+      coid,
+      old_snaps,
+      new_snaps);
+
+    coi = object_info_t(coid);
+
+    ctx->at_version.version++;
+  } else {
+    // save adjusted snaps for this object
+    dout(10) << coid << " snaps " << old_snaps << " -> " << new_snaps << dendl;
+    snapset.clone_snaps[coid.snap] =
+      vector<snapid_t>(new_snaps.rbegin(), new_snaps.rend());
+    // we still do a 'modify' event on this object just to trigger a
+    // snapmapper.update ... :(
+
+    coi.prior_version = coi.version;
+    coi.version = ctx->at_version;
+    bl.clear();
+    encode(coi, bl, get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+    t->setattr(coid, OI_ATTR, bl);
+
+    ctx->log.push_back(
+      pg_log_entry_t(
+	pg_log_entry_t::MODIFY,
+	coid,
+	coi.version,
+	coi.prior_version,
+	0,
+	osd_reqid_t(),
+	ctx->mtime,
+	0)
+      );
+    ctx->at_version.version++;
+
+    t->update_snaps(
+      coid,
+      old_snaps,
+      new_snaps);
+  }
+
+  // save head snapset
+  dout(10) << coid << " new snapset " << snapset << " on "
+	   << head_obc->obs.oi << dendl;
+  if (snapset.clones.empty() &&
+      (head_obc->obs.oi.is_whiteout() &&
+       !(head_obc->obs.oi.is_dirty() && pool.info.is_tier()) &&
+       !head_obc->obs.oi.is_cache_pinned())) {
+    // NOTE: this arguably constitutes minor interference with the
+    // tiering agent if this is a cache tier since a snap trim event
+    // is effectively evicting a whiteout we might otherwise want to
+    // keep around.
+    dout(10) << coid << " removing " << head_oid << dendl;
+    ctx->log.push_back(
+      pg_log_entry_t(
+	pg_log_entry_t::DELETE,
+	head_oid,
+	ctx->at_version,
+	head_obc->obs.oi.version,
+	0,
+	osd_reqid_t(),
+	ctx->mtime,
+	0)
+      );
+    dout(10) << "removing snap head" << dendl;
+    object_info_t& oi = head_obc->obs.oi;
+    ctx->delta_stats.num_objects--;
+    if (oi.is_dirty()) {
+      ctx->delta_stats.num_objects_dirty--;
+    }
+    if (oi.is_omap())
+      ctx->delta_stats.num_objects_omap--;
+    if (oi.is_whiteout()) {
+      dout(20) << __func__ << " trimming whiteout on " << oi.soid << dendl;
+      ctx->delta_stats.num_whiteouts--;
+    }
+    if (oi.is_cache_pinned()) {
+      ctx->delta_stats.num_objects_pinned--;
+    }
+    if (oi.has_manifest()) {
+      ctx->delta_stats.num_objects_manifest--;
+      dec_all_refcount_manifest(oi, ctx.get());
+    }
+    head_obc->obs.exists = false;
+    head_obc->obs.oi = object_info_t(head_oid);
+    t->remove(head_oid);
+  } else {
+    if (get_osdmap()->require_osd_release < ceph_release_t::octopus) {
+      // filter SnapSet::snaps for the benefit of pre-octopus
+      // peers. This is perhaps overly conservative in that I'm not
+      // certain they need this, but let's be conservative here.
+      dout(10) << coid << " filtering snapset on " << head_oid << dendl;
+      snapset.filter(pool.info);
+    } else {
+      snapset.snaps.clear();
+    }
+    dout(10) << coid << " writing updated snapset on " << head_oid
+	     << ", snapset is " << snapset << dendl;
+    ctx->log.push_back(
+      pg_log_entry_t(
+	pg_log_entry_t::MODIFY,
+	head_oid,
+	ctx->at_version,
+	head_obc->obs.oi.version,
+	0,
+	osd_reqid_t(),
+	ctx->mtime,
+	0)
+      );
+
+    head_obc->obs.oi.prior_version = head_obc->obs.oi.version;
+    head_obc->obs.oi.version = ctx->at_version;
+
+    map <string, bufferlist> attrs;
+    bl.clear();
+    encode(snapset, bl);
+    attrs[SS_ATTR] = std::move(bl);
+
+    bl.clear();
+    encode(head_obc->obs.oi, bl,
+	     get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+    attrs[OI_ATTR] = std::move(bl);
+    t->setattrs(head_oid, attrs);
+  }
+
+  *ctxp = std::move(ctx);
+  return 0;
+}
+
+void PrimaryLogPG::kick_snap_trim()
+{
+  ceph_assert(is_active());
+  ceph_assert(is_primary());
+  if (is_clean() &&
+      !state_test(PG_STATE_PREMERGE) &&
+      !snap_trimq.empty()) {
+    if (get_osdmap()->test_flag(CEPH_OSDMAP_NOSNAPTRIM)) {
+      dout(10) << __func__ << ": nosnaptrim set, not kicking" << dendl;
+    } else {
+      dout(10) << __func__ << ": clean and snaps to trim, kicking" << dendl;
+      snap_trimmer_machine.process_event(KickTrim());
+    }
+  }
+}
+
+void PrimaryLogPG::snap_trimmer_scrub_complete()
+{
+  if (is_primary() && is_active() && is_clean() && !snap_trimq.empty()) {
+    dout(10) << "scrub finished - requeuing snap_trimmer" << dendl;
+    snap_trimmer_machine.process_event(ScrubComplete());
+  }
+}
+
+void PrimaryLogPG::snap_trimmer(epoch_t queued)
+{
+  if (recovery_state.is_deleting() || pg_has_reset_since(queued)) {
+    return;
+  }
+
+  ceph_assert(is_primary());
+
+  dout(10) << "snap_trimmer posting" << dendl;
+  snap_trimmer_machine.process_event(DoSnapWork());
+  dout(10) << "snap_trimmer complete" << dendl;
+  return;
+}
+
+int PrimaryLogPG::do_xattr_cmp_u64(int op, __u64 v1, bufferlist& xattr)
+{
+  __u64 v2;
+
+  string v2s(xattr.c_str(), xattr.length());
+  if (v2s.length())
+    v2 = strtoull(v2s.c_str(), NULL, 10);
+  else
+    v2 = 0;
+
+  dout(20) << "do_xattr_cmp_u64 '" << v1 << "' vs '" << v2 << "' op " << op << dendl;
+
+  switch (op) {
+  case CEPH_OSD_CMPXATTR_OP_EQ:
+    return (v1 == v2);
+  case CEPH_OSD_CMPXATTR_OP_NE:
+    return (v1 != v2);
+  case CEPH_OSD_CMPXATTR_OP_GT:
+    return (v1 > v2);
+  case CEPH_OSD_CMPXATTR_OP_GTE:
+    return (v1 >= v2);
+  case CEPH_OSD_CMPXATTR_OP_LT:
+    return (v1 < v2);
+  case CEPH_OSD_CMPXATTR_OP_LTE:
+    return (v1 <= v2);
+  default:
+    return -EINVAL;
+  }
+}
+
+int PrimaryLogPG::do_xattr_cmp_str(int op, string& v1s, bufferlist& xattr)
+{
+  string v2s(xattr.c_str(), xattr.length());
+
+  dout(20) << "do_xattr_cmp_str '" << v1s << "' vs '" << v2s << "' op " << op << dendl;
+
+  switch (op) {
+  case CEPH_OSD_CMPXATTR_OP_EQ:
+    return (v1s.compare(v2s) == 0);
+  case CEPH_OSD_CMPXATTR_OP_NE:
+    return (v1s.compare(v2s) != 0);
+  case CEPH_OSD_CMPXATTR_OP_GT:
+    return (v1s.compare(v2s) > 0);
+  case CEPH_OSD_CMPXATTR_OP_GTE:
+    return (v1s.compare(v2s) >= 0);
+  case CEPH_OSD_CMPXATTR_OP_LT:
+    return (v1s.compare(v2s) < 0);
+  case CEPH_OSD_CMPXATTR_OP_LTE:
+    return (v1s.compare(v2s) <= 0);
+  default:
+    return -EINVAL;
+  }
+}
+
+int PrimaryLogPG::do_writesame(OpContext *ctx, OSDOp& osd_op)
+{
+  ceph_osd_op& op = osd_op.op;
+  vector<OSDOp> write_ops(1);
+  OSDOp& write_op = write_ops[0];
+  uint64_t write_length = op.writesame.length;
+  int result = 0;
+
+  if (!write_length)
+    return 0;
+
+  if (!op.writesame.data_length || write_length % op.writesame.data_length)
+    return -EINVAL;
+
+  if (op.writesame.data_length != osd_op.indata.length()) {
+    derr << "invalid length ws data length " << op.writesame.data_length << " actual len " << osd_op.indata.length() << dendl;
+    return -EINVAL;
+  }
+
+  while (write_length) {
+    write_op.indata.append(osd_op.indata);
+    write_length -= op.writesame.data_length;
+  }
+
+  write_op.op.op = CEPH_OSD_OP_WRITE;
+  write_op.op.extent.offset = op.writesame.offset;
+  write_op.op.extent.length = op.writesame.length;
+  result = do_osd_ops(ctx, write_ops);
+  if (result < 0)
+    derr << "do_writesame do_osd_ops failed " << result << dendl;
+
+  return result;
+}
+
+// ========================================================================
+// low level osd ops
+
+int PrimaryLogPG::do_tmap2omap(OpContext *ctx, unsigned flags)
+{
+  dout(20) << " convert tmap to omap for " << ctx->new_obs.oi.soid << dendl;
+  bufferlist header, vals;
+  int r = _get_tmap(ctx, &header, &vals);
+  if (r < 0) {
+    if (r == -ENODATA && (flags & CEPH_OSD_TMAP2OMAP_NULLOK))
+      r = 0;
+    return r;
+  }
+
+  vector<OSDOp> ops(3);
+
+  ops[0].op.op = CEPH_OSD_OP_TRUNCATE;
+  ops[0].op.extent.offset = 0;
+  ops[0].op.extent.length = 0;
+
+  ops[1].op.op = CEPH_OSD_OP_OMAPSETHEADER;
+  ops[1].indata = std::move(header);
+
+  ops[2].op.op = CEPH_OSD_OP_OMAPSETVALS;
+  ops[2].indata = std::move(vals);
+
+  return do_osd_ops(ctx, ops);
+}
+
+int PrimaryLogPG::do_tmapup_slow(OpContext *ctx, bufferlist::const_iterator& bp,
+				 OSDOp& osd_op, bufferlist& bl)
+{
+  // decode
+  bufferlist header;
+  map<string, bufferlist> m;
+  if (bl.length()) {
+    auto p = bl.cbegin();
+    decode(header, p);
+    decode(m, p);
+    ceph_assert(p.end());
+  }
+
+  // do the update(s)
+  while (!bp.end()) {
+    __u8 op;
+    string key;
+    decode(op, bp);
+
+    switch (op) {
+    case CEPH_OSD_TMAP_SET: // insert key
+      {
+	decode(key, bp);
+	bufferlist data;
+	decode(data, bp);
+	m[key] = data;
+      }
+      break;
+    case CEPH_OSD_TMAP_RM: // remove key
+      decode(key, bp);
+      if (!m.count(key)) {
+	return -ENOENT;
+      }
+      m.erase(key);
+      break;
+    case CEPH_OSD_TMAP_RMSLOPPY: // remove key
+      decode(key, bp);
+      m.erase(key);
+      break;
+    case CEPH_OSD_TMAP_HDR: // update header
+      {
+	decode(header, bp);
+      }
+      break;
+    default:
+      return -EINVAL;
+    }
+  }
+
+  // reencode
+  bufferlist obl;
+  encode(header, obl);
+  encode(m, obl);
+
+  // write it out
+  vector<OSDOp> nops(1);
+  OSDOp& newop = nops[0];
+  newop.op.op = CEPH_OSD_OP_WRITEFULL;
+  newop.op.extent.offset = 0;
+  newop.op.extent.length = obl.length();
+  newop.indata = obl;
+  do_osd_ops(ctx, nops);
+  return 0;
+}
+
+int PrimaryLogPG::do_tmapup(OpContext *ctx, bufferlist::const_iterator& bp, OSDOp& osd_op)
+{
+  bufferlist::const_iterator orig_bp = bp;
+  int result = 0;
+  if (bp.end()) {
+    dout(10) << "tmapup is a no-op" << dendl;
+  } else {
+    // read the whole object
+    vector<OSDOp> nops(1);
+    OSDOp& newop = nops[0];
+    newop.op.op = CEPH_OSD_OP_READ;
+    newop.op.extent.offset = 0;
+    newop.op.extent.length = 0;
+    result = do_osd_ops(ctx, nops);
+
+    dout(10) << "tmapup read " << newop.outdata.length() << dendl;
+
+    dout(30) << " starting is \n";
+    newop.outdata.hexdump(*_dout);
+    *_dout << dendl;
+
+    auto ip = newop.outdata.cbegin();
+    bufferlist obl;
+
+    dout(30) << "the update command is: \n";
+    osd_op.indata.hexdump(*_dout);
+    *_dout << dendl;
+
+    // header
+    bufferlist header;
+    __u32 nkeys = 0;
+    if (newop.outdata.length()) {
+      decode(header, ip);
+      decode(nkeys, ip);
+    }
+    dout(10) << "tmapup header " << header.length() << dendl;
+
+    if (!bp.end() && *bp == CEPH_OSD_TMAP_HDR) {
+      ++bp;
+      decode(header, bp);
+      dout(10) << "tmapup new header " << header.length() << dendl;
+    }
+
+    encode(header, obl);
+
+    dout(20) << "tmapup initial nkeys " << nkeys << dendl;
+
+    // update keys
+    bufferlist newkeydata;
+    string nextkey, last_in_key;
+    bufferlist nextval;
+    bool have_next = false;
+    if (!ip.end()) {
+      have_next = true;
+      decode(nextkey, ip);
+      decode(nextval, ip);
+    }
+    while (!bp.end() && !result) {
+      __u8 op;
+      string key;
+      try {
+	decode(op, bp);
+	decode(key, bp);
+      }
+      catch (ceph::buffer::error& e) {
+	return -EINVAL;
+      }
+      if (key < last_in_key) {
+	dout(5) << "tmapup warning: key '" << key << "' < previous key '" << last_in_key
+		<< "', falling back to an inefficient (unsorted) update" << dendl;
+	bp = orig_bp;
+	return do_tmapup_slow(ctx, bp, osd_op, newop.outdata);
+      }
+      last_in_key = key;
+
+      dout(10) << "tmapup op " << (int)op << " key " << key << dendl;
+
+      // skip existing intervening keys
+      bool key_exists = false;
+      while (have_next && !key_exists) {
+	dout(20) << "  (have_next=" << have_next << " nextkey=" << nextkey << ")" << dendl;
+	if (nextkey > key)
+	  break;
+	if (nextkey < key) {
+	  // copy untouched.
+	  encode(nextkey, newkeydata);
+	  encode(nextval, newkeydata);
+	  dout(20) << "  keep " << nextkey << " " << nextval.length() << dendl;
+	} else {
+	  // don't copy; discard old value.  and stop.
+	  dout(20) << "  drop " << nextkey << " " << nextval.length() << dendl;
+	  key_exists = true;
+	  nkeys--;
+	}
+	if (!ip.end()) {
+	  decode(nextkey, ip);
+	  decode(nextval, ip);
+	} else {
+	  have_next = false;
+	}
+      }
+
+      if (op == CEPH_OSD_TMAP_SET) {
+	bufferlist val;
+	try {
+	  decode(val, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  return -EINVAL;
+	}
+	encode(key, newkeydata);
+	encode(val, newkeydata);
+	dout(20) << "   set " << key << " " << val.length() << dendl;
+	nkeys++;
+      } else if (op == CEPH_OSD_TMAP_CREATE) {
+	if (key_exists) {
+	  return -EEXIST;
+	}
+	bufferlist val;
+	try {
+	  decode(val, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  return -EINVAL;
+	}
+	encode(key, newkeydata);
+	encode(val, newkeydata);
+	dout(20) << "   create " << key << " " << val.length() << dendl;
+	nkeys++;
+      } else if (op == CEPH_OSD_TMAP_RM) {
+	// do nothing.
+	if (!key_exists) {
+	  return -ENOENT;
+	}
+      } else if (op == CEPH_OSD_TMAP_RMSLOPPY) {
+	// do nothing
+      } else {
+	dout(10) << "  invalid tmap op " << (int)op << dendl;
+	return -EINVAL;
+      }
+    }
+
+    // copy remaining
+    if (have_next) {
+      encode(nextkey, newkeydata);
+      encode(nextval, newkeydata);
+      dout(20) << "  keep " << nextkey << " " << nextval.length() << dendl;
+    }
+    if (!ip.end()) {
+      bufferlist rest;
+      rest.substr_of(newop.outdata, ip.get_off(), newop.outdata.length() - ip.get_off());
+      dout(20) << "  keep trailing " << rest.length()
+	       << " at " << newkeydata.length() << dendl;
+      newkeydata.claim_append(rest);
+    }
+
+    // encode final key count + key data
+    dout(20) << "tmapup final nkeys " << nkeys << dendl;
+    encode(nkeys, obl);
+    obl.claim_append(newkeydata);
+
+    if (0) {
+      dout(30) << " final is \n";
+      obl.hexdump(*_dout);
+      *_dout << dendl;
+
+      // sanity check
+      auto tp = obl.cbegin();
+      bufferlist h;
+      decode(h, tp);
+      map<string,bufferlist> d;
+      decode(d, tp);
+      ceph_assert(tp.end());
+      dout(0) << " **** debug sanity check, looks ok ****" << dendl;
+    }
+
+    // write it out
+    if (!result) {
+      dout(20) << "tmapput write " << obl.length() << dendl;
+      newop.op.op = CEPH_OSD_OP_WRITEFULL;
+      newop.op.extent.offset = 0;
+      newop.op.extent.length = obl.length();
+      newop.indata = obl;
+      do_osd_ops(ctx, nops);
+    }
+  }
+  return result;
+}
+
+static int check_offset_and_length(uint64_t offset, uint64_t length,
+  uint64_t max, DoutPrefixProvider *dpp)
+{
+  if (offset >= max ||
+      length > max ||
+      offset + length > max) {
+    ldpp_dout(dpp, 10) << __func__ << " "
+      << "osd_max_object_size: " << max
+      << "; Hard limit of object size is 4GB." << dendl;
+    return -EFBIG;
+  }
+
+  return 0;
+}
+
+struct FillInVerifyExtent : public Context {
+  ceph_le64 *r;
+  int32_t *rval;
+  bufferlist *outdatap;
+  std::optional<uint32_t> maybe_crc;
+  uint64_t size;
+  OSDService *osd;
+  hobject_t soid;
+  uint32_t flags;
+  FillInVerifyExtent(ceph_le64 *r, int32_t *rv, bufferlist *blp,
+		     std::optional<uint32_t> mc, uint64_t size,
+		     OSDService *osd, hobject_t soid, uint32_t flags) :
+    r(r), rval(rv), outdatap(blp), maybe_crc(mc),
+    size(size), osd(osd), soid(soid), flags(flags) {}
+  void finish(int len) override {
+    if (len < 0) {
+      *rval = len;
+      return;
+    }
+    *r = len;
+    *rval = 0;
+
+    // whole object?  can we verify the checksum?
+    if (maybe_crc && *r == size) {
+      uint32_t crc = outdatap->crc32c(-1);
+      if (maybe_crc != crc) {
+        osd->clog->error() << std::hex << " full-object read crc 0x" << crc
+			   << " != expected 0x" << *maybe_crc
+			   << std::dec << " on " << soid;
+        if (!(flags & CEPH_OSD_OP_FLAG_FAILOK)) {
+	  *rval = -EIO;
+	  *r = 0;
+	}
+      }
+    }
+  }
+};
+
+struct ToSparseReadResult : public Context {
+  int* result;
+  bufferlist* data_bl;
+  uint64_t data_offset;
+  ceph_le64* len;
+  ToSparseReadResult(int* result, bufferlist* bl, uint64_t offset,
+		     ceph_le64* len)
+    : result(result), data_bl(bl), data_offset(offset),len(len) {}
+  void finish(int r) override {
+    if (r < 0) {
+      *result = r;
+      return;
+    }
+    *result = 0;
+    *len = r;
+    bufferlist outdata;
+    map<uint64_t, uint64_t> extents = {{data_offset, r}};
+    encode(extents, outdata);
+    encode_destructively(*data_bl, outdata);
+    data_bl->swap(outdata);
+  }
+};
+
+template<typename V>
+static string list_keys(const map<string, V>& m) {
+  string s;
+  for (typename map<string, V>::const_iterator itr = m.begin(); itr != m.end(); ++itr) {
+    if (!s.empty()) {
+      s.push_back(',');
+    }
+    s.append(itr->first);
+  }
+  return s;
+}
+
+template<typename T>
+static string list_entries(const T& m) {
+  string s;
+  for (typename T::const_iterator itr = m.begin(); itr != m.end(); ++itr) {
+    if (!s.empty()) {
+      s.push_back(',');
+    }
+    s.append(*itr);
+  }
+  return s;
+}
+
+void PrimaryLogPG::maybe_create_new_object(
+  OpContext *ctx,
+  bool ignore_transaction)
+{
+  ObjectState& obs = ctx->new_obs;
+  if (!obs.exists) {
+    ctx->delta_stats.num_objects++;
+    obs.exists = true;
+    ceph_assert(!obs.oi.is_whiteout());
+    obs.oi.new_object();
+    if (!ignore_transaction)
+      ctx->op_t->create(obs.oi.soid);
+  } else if (obs.oi.is_whiteout()) {
+    dout(10) << __func__ << " clearing whiteout on " << obs.oi.soid << dendl;
+    ctx->new_obs.oi.clear_flag(object_info_t::FLAG_WHITEOUT);
+    --ctx->delta_stats.num_whiteouts;
+  }
+}
+
+struct ReadFinisher : public PrimaryLogPG::OpFinisher {
+  OSDOp& osd_op;
+
+  explicit ReadFinisher(OSDOp& osd_op) : osd_op(osd_op) {
+  }
+
+  int execute() override {
+    return osd_op.rval;
+  }
+};
+
+struct C_ChecksumRead : public Context {
+  PrimaryLogPG *primary_log_pg;
+  OSDOp &osd_op;
+  Checksummer::CSumType csum_type;
+  bufferlist init_value_bl;
+  ceph_le64 read_length;
+  bufferlist read_bl;
+  Context *fill_extent_ctx;
+
+  C_ChecksumRead(PrimaryLogPG *primary_log_pg, OSDOp &osd_op,
+		 Checksummer::CSumType csum_type, bufferlist &&init_value_bl,
+		 std::optional<uint32_t> maybe_crc, uint64_t size,
+		 OSDService *osd, hobject_t soid, uint32_t flags)
+    : primary_log_pg(primary_log_pg), osd_op(osd_op),
+      csum_type(csum_type), init_value_bl(std::move(init_value_bl)),
+      fill_extent_ctx(new FillInVerifyExtent(&read_length, &osd_op.rval,
+					     &read_bl, maybe_crc, size,
+					     osd, soid, flags)) {
+  }
+  ~C_ChecksumRead() override {
+    delete fill_extent_ctx;
+  }
+
+  void finish(int r) override {
+    fill_extent_ctx->complete(r);
+    fill_extent_ctx = nullptr;
+
+    if (osd_op.rval >= 0) {
+      bufferlist::const_iterator init_value_bl_it = init_value_bl.begin();
+      osd_op.rval = primary_log_pg->finish_checksum(osd_op, csum_type,
+						    &init_value_bl_it, read_bl);
+    }
+  }
+};
+
+int PrimaryLogPG::do_checksum(OpContext *ctx, OSDOp& osd_op,
+			      bufferlist::const_iterator *bl_it)
+{
+  dout(20) << __func__ << dendl;
+
+  auto& op = osd_op.op;
+  if (op.checksum.chunk_size > 0) {
+    if (op.checksum.length == 0) {
+      dout(10) << __func__ << ": length required when chunk size provided"
+	       << dendl;
+      return -EINVAL;
+    }
+    if (op.checksum.length % op.checksum.chunk_size != 0) {
+      dout(10) << __func__ << ": length not aligned to chunk size" << dendl;
+      return -EINVAL;
+    }
+  }
+
+  auto& oi = ctx->new_obs.oi;
+  if (op.checksum.offset == 0 && op.checksum.length == 0) {
+    // zeroed offset+length implies checksum whole object
+    op.checksum.length = oi.size;
+  } else if (op.checksum.offset >= oi.size) {
+    // read size was trimmed to zero, do nothing
+    // see PrimaryLogPG::do_read
+    return 0;
+  } else if (op.extent.offset + op.extent.length > oi.size) {
+    op.extent.length = oi.size - op.extent.offset;
+    if (op.checksum.chunk_size > 0 &&
+        op.checksum.length % op.checksum.chunk_size != 0) {
+      dout(10) << __func__ << ": length (trimmed to 0x"
+               << std::hex << op.checksum.length
+               << ") not aligned to chunk size 0x"
+               << op.checksum.chunk_size << std::dec
+               << dendl;
+      return -EINVAL;
+    }
+  }
+
+  Checksummer::CSumType csum_type;
+  switch (op.checksum.type) {
+  case CEPH_OSD_CHECKSUM_OP_TYPE_XXHASH32:
+    csum_type = Checksummer::CSUM_XXHASH32;
+    break;
+  case CEPH_OSD_CHECKSUM_OP_TYPE_XXHASH64:
+    csum_type = Checksummer::CSUM_XXHASH64;
+    break;
+  case CEPH_OSD_CHECKSUM_OP_TYPE_CRC32C:
+    csum_type = Checksummer::CSUM_CRC32C;
+    break;
+  default:
+    dout(10) << __func__ << ": unknown crc type ("
+	     << static_cast<uint32_t>(op.checksum.type) << ")" << dendl;
+    return -EINVAL;
+  }
+
+  size_t csum_init_value_size = Checksummer::get_csum_init_value_size(csum_type);
+  if (bl_it->get_remaining() < csum_init_value_size) {
+    dout(10) << __func__ << ": init value not provided" << dendl;
+    return -EINVAL;
+  }
+
+  bufferlist init_value_bl;
+  init_value_bl.substr_of(bl_it->get_bl(), bl_it->get_off(),
+			  csum_init_value_size);
+  *bl_it += csum_init_value_size;
+
+  if (pool.info.is_erasure() && op.checksum.length > 0) {
+    // If there is a data digest and it is possible we are reading
+    // entire object, pass the digest.
+    std::optional<uint32_t> maybe_crc;
+    if (oi.is_data_digest() && op.checksum.offset == 0 &&
+        op.checksum.length >= oi.size) {
+      maybe_crc = oi.data_digest;
+    }
+
+    // async read
+    auto& soid = oi.soid;
+    auto checksum_ctx = new C_ChecksumRead(this, osd_op, csum_type,
+					   std::move(init_value_bl), maybe_crc,
+					   oi.size, osd, soid, op.flags);
+
+    ctx->pending_async_reads.push_back({
+      {op.checksum.offset, op.checksum.length, op.flags},
+      {&checksum_ctx->read_bl, checksum_ctx}});
+
+    dout(10) << __func__ << ": async_read noted for " << soid << dendl;
+    ctx->op_finishers[ctx->current_osd_subop_num].reset(
+      new ReadFinisher(osd_op));
+    return -EINPROGRESS;
+  }
+
+  // sync read
+  std::vector<OSDOp> read_ops(1);
+  auto& read_op = read_ops[0];
+  if (op.checksum.length > 0) {
+    read_op.op.op = CEPH_OSD_OP_READ;
+    read_op.op.flags = op.flags;
+    read_op.op.extent.offset = op.checksum.offset;
+    read_op.op.extent.length = op.checksum.length;
+    read_op.op.extent.truncate_size = 0;
+    read_op.op.extent.truncate_seq = 0;
+
+    int r = do_osd_ops(ctx, read_ops);
+    if (r < 0) {
+      derr << __func__ << ": do_osd_ops failed: " << cpp_strerror(r) << dendl;
+      return r;
+    }
+  }
+
+  bufferlist::const_iterator init_value_bl_it = init_value_bl.begin();
+  return finish_checksum(osd_op, csum_type, &init_value_bl_it,
+			 read_op.outdata);
+}
+
+int PrimaryLogPG::finish_checksum(OSDOp& osd_op,
+				  Checksummer::CSumType csum_type,
+				  bufferlist::const_iterator *init_value_bl_it,
+				  const bufferlist &read_bl) {
+  dout(20) << __func__ << dendl;
+
+  auto& op = osd_op.op;
+
+  if (op.checksum.length > 0 && read_bl.length() != op.checksum.length) {
+    derr << __func__ << ": bytes read " << read_bl.length() << " != "
+	 << op.checksum.length << dendl;
+    return -EINVAL;
+  }
+
+  size_t csum_chunk_size = (op.checksum.chunk_size != 0 ?
+			      op.checksum.chunk_size : read_bl.length());
+  uint32_t csum_count = (csum_chunk_size > 0 ?
+			   read_bl.length() / csum_chunk_size : 0);
+
+  bufferlist csum;
+  bufferptr csum_data;
+  if (csum_count > 0) {
+    size_t csum_value_size = Checksummer::get_csum_value_size(csum_type);
+    csum_data = ceph::buffer::create(csum_value_size * csum_count);
+    csum_data.zero();
+    csum.append(csum_data);
+
+    switch (csum_type) {
+    case Checksummer::CSUM_XXHASH32:
+      {
+        Checksummer::xxhash32::init_value_t init_value;
+        decode(init_value, *init_value_bl_it);
+        Checksummer::calculate<Checksummer::xxhash32>(
+	  init_value, csum_chunk_size, 0, read_bl.length(), read_bl,
+	  &csum_data);
+      }
+      break;
+    case Checksummer::CSUM_XXHASH64:
+      {
+        Checksummer::xxhash64::init_value_t init_value;
+        decode(init_value, *init_value_bl_it);
+        Checksummer::calculate<Checksummer::xxhash64>(
+	  init_value, csum_chunk_size, 0, read_bl.length(), read_bl,
+	  &csum_data);
+      }
+      break;
+    case Checksummer::CSUM_CRC32C:
+      {
+        Checksummer::crc32c::init_value_t init_value;
+        decode(init_value, *init_value_bl_it);
+        Checksummer::calculate<Checksummer::crc32c>(
+  	  init_value, csum_chunk_size, 0, read_bl.length(), read_bl,
+	  &csum_data);
+      }
+      break;
+    default:
+      break;
+    }
+  }
+
+  encode(csum_count, osd_op.outdata);
+  osd_op.outdata.claim_append(csum);
+  return 0;
+}
+
+struct C_ExtentCmpRead : public Context {
+  PrimaryLogPG *primary_log_pg;
+  OSDOp &osd_op;
+  ceph_le64 read_length{};
+  bufferlist read_bl;
+  Context *fill_extent_ctx;
+
+  C_ExtentCmpRead(PrimaryLogPG *primary_log_pg, OSDOp &osd_op,
+		  std::optional<uint32_t> maybe_crc, uint64_t size,
+		  OSDService *osd, hobject_t soid, uint32_t flags)
+    : primary_log_pg(primary_log_pg), osd_op(osd_op),
+      fill_extent_ctx(new FillInVerifyExtent(&read_length, &osd_op.rval,
+					     &read_bl, maybe_crc, size,
+					     osd, soid, flags)) {
+  }
+  ~C_ExtentCmpRead() override {
+    delete fill_extent_ctx;
+  }
+
+  void finish(int r) override {
+    if (r == -ENOENT) {
+      osd_op.rval = 0;
+      read_bl.clear();
+      delete fill_extent_ctx;
+    } else {
+      fill_extent_ctx->complete(r);
+    }
+    fill_extent_ctx = nullptr;
+
+    if (osd_op.rval >= 0) {
+      osd_op.rval = primary_log_pg->finish_extent_cmp(osd_op, read_bl);
+    }
+  }
+};
+
+int PrimaryLogPG::do_extent_cmp(OpContext *ctx, OSDOp& osd_op)
+{
+  dout(20) << __func__ << dendl;
+  ceph_osd_op& op = osd_op.op;
+
+  auto& oi = ctx->new_obs.oi;
+  uint64_t size = oi.size;
+  if ((oi.truncate_seq < op.extent.truncate_seq) &&
+      (op.extent.offset + op.extent.length > op.extent.truncate_size)) {
+    size = op.extent.truncate_size;
+  }
+
+  if (op.extent.offset >= size) {
+    op.extent.length = 0;
+  } else if (op.extent.offset + op.extent.length > size) {
+    op.extent.length = size - op.extent.offset;
+  }
+
+  if (op.extent.length == 0) {
+    dout(20) << __func__ << " zero length extent" << dendl;
+    return finish_extent_cmp(osd_op, bufferlist{});
+  } else if (!ctx->obs->exists || ctx->obs->oi.is_whiteout()) {
+    dout(20) << __func__ << " object DNE" << dendl;
+    return finish_extent_cmp(osd_op, {});
+  } else if (pool.info.is_erasure()) {
+    // If there is a data digest and it is possible we are reading
+    // entire object, pass the digest.
+    std::optional<uint32_t> maybe_crc;
+    if (oi.is_data_digest() && op.checksum.offset == 0 &&
+        op.checksum.length >= oi.size) {
+      maybe_crc = oi.data_digest;
+    }
+
+    // async read
+    auto& soid = oi.soid;
+    auto extent_cmp_ctx = new C_ExtentCmpRead(this, osd_op, maybe_crc, oi.size,
+					      osd, soid, op.flags);
+    ctx->pending_async_reads.push_back({
+      {op.extent.offset, op.extent.length, op.flags},
+      {&extent_cmp_ctx->read_bl, extent_cmp_ctx}});
+
+    dout(10) << __func__ << ": async_read noted for " << soid << dendl;
+
+    ctx->op_finishers[ctx->current_osd_subop_num].reset(
+      new ReadFinisher(osd_op));
+    return -EINPROGRESS;
+  }
+
+  // sync read
+  vector<OSDOp> read_ops(1);
+  OSDOp& read_op = read_ops[0];
+
+  read_op.op.op = CEPH_OSD_OP_SYNC_READ;
+  read_op.op.extent.offset = op.extent.offset;
+  read_op.op.extent.length = op.extent.length;
+  read_op.op.extent.truncate_seq = op.extent.truncate_seq;
+  read_op.op.extent.truncate_size = op.extent.truncate_size;
+
+  int result = do_osd_ops(ctx, read_ops);
+  if (result < 0) {
+    derr << __func__ << " failed " << result << dendl;
+    return result;
+  }
+  return finish_extent_cmp(osd_op, read_op.outdata);
+}
+
+int PrimaryLogPG::finish_extent_cmp(OSDOp& osd_op, const bufferlist &read_bl)
+{
+  for (uint64_t idx = 0; idx < osd_op.indata.length(); ++idx) {
+    char read_byte = (idx < read_bl.length() ? read_bl[idx] : 0);
+    if (osd_op.indata[idx] != read_byte) {
+        return (-MAX_ERRNO - idx);
+    }
+  }
+
+  return 0;
+}
+
+int PrimaryLogPG::do_read(OpContext *ctx, OSDOp& osd_op) {
+  dout(20) << __func__ << dendl;
+  auto& op = osd_op.op;
+  auto& oi = ctx->new_obs.oi;
+  auto& soid = oi.soid;
+  __u32 seq = oi.truncate_seq;
+  uint64_t size = oi.size;
+  bool trimmed_read = false;
+
+  dout(30) << __func__ << " oi.size: " << oi.size << dendl;
+  dout(30) << __func__ << " oi.truncate_seq: " << oi.truncate_seq << dendl;
+  dout(30) << __func__ << " op.extent.truncate_seq: " << op.extent.truncate_seq << dendl;
+  dout(30) << __func__ << " op.extent.truncate_size: " << op.extent.truncate_size << dendl;
+
+  // are we beyond truncate_size?
+  if ( (seq < op.extent.truncate_seq) &&
+       (op.extent.offset + op.extent.length > op.extent.truncate_size) &&
+       (size > op.extent.truncate_size) )
+    size = op.extent.truncate_size;
+
+  if (op.extent.length == 0) //length is zero mean read the whole object
+    op.extent.length = size;
+
+  if (op.extent.offset >= size) {
+    op.extent.length = 0;
+    trimmed_read = true;
+  } else if (op.extent.offset + op.extent.length > size) {
+    op.extent.length = size - op.extent.offset;
+    trimmed_read = true;
+  }
+
+  dout(30) << __func__ << "op.extent.length is now " << op.extent.length << dendl;
+
+  // read into a buffer
+  int result = 0;
+  if (trimmed_read && op.extent.length == 0) {
+    // read size was trimmed to zero and it is expected to do nothing
+    // a read operation of 0 bytes does *not* do nothing, this is why
+    // the trimmed_read boolean is needed
+  } else if (pool.info.is_erasure()) {
+    // The initialisation below is required to silence a false positive
+    // -Wmaybe-uninitialized warning
+    std::optional<uint32_t> maybe_crc;
+    // If there is a data digest and it is possible we are reading
+    // entire object, pass the digest.  FillInVerifyExtent will
+    // will check the oi.size again.
+    if (oi.is_data_digest() && op.extent.offset == 0 &&
+        op.extent.length >= oi.size)
+      maybe_crc = oi.data_digest;
+    ctx->pending_async_reads.push_back(
+      make_pair(
+        boost::make_tuple(op.extent.offset, op.extent.length, op.flags),
+        make_pair(&osd_op.outdata,
+		  new FillInVerifyExtent(&op.extent.length, &osd_op.rval,
+					 &osd_op.outdata, maybe_crc, oi.size,
+					 osd, soid, op.flags))));
+    dout(10) << " async_read noted for " << soid << dendl;
+
+    ctx->op_finishers[ctx->current_osd_subop_num].reset(
+      new ReadFinisher(osd_op));
+  } else {
+    int r = pgbackend->objects_read_sync(
+      soid, op.extent.offset, op.extent.length, op.flags, &osd_op.outdata);
+    // whole object?  can we verify the checksum?
+    if (r >= 0 && op.extent.offset == 0 &&
+        (uint64_t)r == oi.size && oi.is_data_digest()) {
+      uint32_t crc = osd_op.outdata.crc32c(-1);
+      if (oi.data_digest != crc) {
+        osd->clog->error() << info.pgid << std::hex
+                           << " full-object read crc 0x" << crc
+                           << " != expected 0x" << oi.data_digest
+                           << std::dec << " on " << soid;
+        r = -EIO; // try repair later
+      }
+    }
+    if (r == -EIO) {
+      r = rep_repair_primary_object(soid, ctx);
+    }
+    if (r >= 0)
+      op.extent.length = r;
+    else if (r == -EAGAIN) {
+      result = -EAGAIN;
+    } else {
+      result = r;
+      op.extent.length = 0;
+    }
+    dout(10) << " read got " << r << " / " << op.extent.length
+	     << " bytes from obj " << soid << dendl;
+  }
+  if (result >= 0) {
+    ctx->delta_stats.num_rd_kb += shift_round_up(op.extent.length, 10);
+    ctx->delta_stats.num_rd++;
+  }
+  return result;
+}
+
+int PrimaryLogPG::do_sparse_read(OpContext *ctx, OSDOp& osd_op) {
+  dout(20) << __func__ << dendl;
+  auto& op = osd_op.op;
+  auto& oi = ctx->new_obs.oi;
+  auto& soid = oi.soid;
+
+  if (op.extent.truncate_seq) {
+    dout(0) << "sparse_read does not support truncation sequence " << dendl;
+    return -EINVAL;
+  }
+
+  ++ctx->num_read;
+  if (pool.info.is_erasure()) {
+    // translate sparse read to a normal one if not supported
+    uint64_t offset = op.extent.offset;
+    uint64_t length = op.extent.length;
+    if (offset > oi.size) {
+      length = 0;
+    } else if (offset + length > oi.size) {
+      length = oi.size - offset;
+    }
+
+    if (length > 0) {
+      ctx->pending_async_reads.push_back(
+        make_pair(
+          boost::make_tuple(offset, length, op.flags),
+          make_pair(
+	    &osd_op.outdata,
+	    new ToSparseReadResult(&osd_op.rval, &osd_op.outdata, offset,
+				   &op.extent.length))));
+      dout(10) << " async_read (was sparse_read) noted for " << soid << dendl;
+
+      ctx->op_finishers[ctx->current_osd_subop_num].reset(
+        new ReadFinisher(osd_op));
+    } else {
+      dout(10) << " sparse read ended up empty for " << soid << dendl;
+      map<uint64_t, uint64_t> extents;
+      encode(extents, osd_op.outdata);
+    }
+  } else {
+    // read into a buffer
+    map<uint64_t, uint64_t> m;
+    int r = osd->store->fiemap(ch, ghobject_t(soid, ghobject_t::NO_GEN,
+					      info.pgid.shard),
+			       op.extent.offset, op.extent.length, m);
+    if (r < 0)  {
+      return r;
+    }
+
+    bufferlist data_bl;
+    r = pgbackend->objects_readv_sync(soid, std::move(m), op.flags, &data_bl);
+    if (r == -EIO) {
+      r = rep_repair_primary_object(soid, ctx);
+    }
+    if (r < 0) {
+      return r;
+    }
+
+    // Why SPARSE_READ need checksum? In fact, librbd always use sparse-read.
+    // Maybe at first, there is no much whole objects. With continued use, more
+    // and more whole object exist. So from this point, for spare-read add
+    // checksum make sense.
+    if ((uint64_t)r == oi.size && oi.is_data_digest()) {
+      uint32_t crc = data_bl.crc32c(-1);
+      if (oi.data_digest != crc) {
+        osd->clog->error() << info.pgid << std::hex
+          << " full-object read crc 0x" << crc
+          << " != expected 0x" << oi.data_digest
+          << std::dec << " on " << soid;
+        r = rep_repair_primary_object(soid, ctx);
+	if (r < 0) {
+	  return r;
+	}
+      }
+    }
+
+    op.extent.length = r;
+
+    encode(m, osd_op.outdata); // re-encode since it might be modified
+    ::encode_destructively(data_bl, osd_op.outdata);
+
+    dout(10) << " sparse_read got " << r << " bytes from object "
+	     << soid << dendl;
+  }
+
+  ctx->delta_stats.num_rd_kb += shift_round_up(op.extent.length, 10);
+  ctx->delta_stats.num_rd++;
+  return 0;
+}
+
+int PrimaryLogPG::do_osd_ops(OpContext *ctx, vector<OSDOp>& ops)
+{
+  int result = 0;
+  SnapSetContext *ssc = ctx->obc->ssc;
+  ObjectState& obs = ctx->new_obs;
+  object_info_t& oi = obs.oi;
+  const hobject_t& soid = oi.soid;
+  const bool skip_data_digest = osd->store->has_builtin_csum() &&
+    osd->osd_skip_data_digest;
+
+  PGTransaction* t = ctx->op_t.get();
+
+  dout(10) << "do_osd_op " << soid << " " << ops << dendl;
+#ifdef HAVE_JAEGER
+  if (ctx->op->osd_parent_span) {
+    auto do_osd_op_span = jaeger_tracing::child_span(__func__, ctx->op->osd_parent_span);
+  }
+#endif
+
+  ctx->current_osd_subop_num = 0;
+  for (auto p = ops.begin(); p != ops.end(); ++p, ctx->current_osd_subop_num++, ctx->processed_subop_count++) {
+    OSDOp& osd_op = *p;
+    ceph_osd_op& op = osd_op.op;
+
+    OpFinisher* op_finisher = nullptr;
+    {
+      auto op_finisher_it = ctx->op_finishers.find(ctx->current_osd_subop_num);
+      if (op_finisher_it != ctx->op_finishers.end()) {
+        op_finisher = op_finisher_it->second.get();
+      }
+    }
+
+    // TODO: check endianness (ceph_le32 vs uint32_t, etc.)
+    // The fields in ceph_osd_op are little-endian (according to the definition in rados.h),
+    // but the code in this function seems to treat them as native-endian.  What should the
+    // tracepoints do?
+    tracepoint(osd, do_osd_op_pre, soid.oid.name.c_str(), soid.snap.val, op.op, ceph_osd_op_name(op.op), op.flags);
+
+    dout(10) << "do_osd_op  " << osd_op << dendl;
+
+    auto bp = osd_op.indata.cbegin();
+
+    // user-visible modifcation?
+    switch (op.op) {
+      // non user-visible modifications
+    case CEPH_OSD_OP_WATCH:
+    case CEPH_OSD_OP_CACHE_EVICT:
+    case CEPH_OSD_OP_CACHE_FLUSH:
+    case CEPH_OSD_OP_CACHE_TRY_FLUSH:
+    case CEPH_OSD_OP_UNDIRTY:
+    case CEPH_OSD_OP_COPY_FROM:  // we handle user_version update explicitly
+    case CEPH_OSD_OP_COPY_FROM2:
+    case CEPH_OSD_OP_CACHE_PIN:
+    case CEPH_OSD_OP_CACHE_UNPIN:
+    case CEPH_OSD_OP_SET_REDIRECT:
+    case CEPH_OSD_OP_SET_CHUNK:
+    case CEPH_OSD_OP_TIER_PROMOTE:
+    case CEPH_OSD_OP_TIER_FLUSH:
+    case CEPH_OSD_OP_TIER_EVICT:
+      break;
+    default:
+      if (op.op & CEPH_OSD_OP_MODE_WR)
+	ctx->user_modify = true;
+    }
+
+    // munge -1 truncate to 0 truncate
+    if (ceph_osd_op_uses_extent(op.op) &&
+        op.extent.truncate_seq == 1 &&
+        op.extent.truncate_size == (-1ULL)) {
+      op.extent.truncate_size = 0;
+      op.extent.truncate_seq = 0;
+    }
+
+    // munge ZERO -> TRUNCATE?  (don't munge to DELETE or we risk hosing attributes)
+    if (op.op == CEPH_OSD_OP_ZERO &&
+        obs.exists &&
+        op.extent.offset < static_cast<Option::size_t>(osd->osd_max_object_size) &&
+        op.extent.length >= 1 &&
+        op.extent.length <= static_cast<Option::size_t>(osd->osd_max_object_size) &&
+	op.extent.offset + op.extent.length >= oi.size) {
+      if (op.extent.offset >= oi.size) {
+        // no-op
+	goto fail;
+      }
+      dout(10) << " munging ZERO " << op.extent.offset << "~" << op.extent.length
+	       << " -> TRUNCATE " << op.extent.offset << " (old size is " << oi.size << ")" << dendl;
+      op.op = CEPH_OSD_OP_TRUNCATE;
+    }
+
+    switch (op.op) {
+
+      // --- READS ---
+
+    case CEPH_OSD_OP_CMPEXT:
+      ++ctx->num_read;
+      tracepoint(osd, do_osd_op_pre_extent_cmp, soid.oid.name.c_str(),
+		 soid.snap.val, oi.size, oi.truncate_seq, op.extent.offset,
+		 op.extent.length, op.extent.truncate_size,
+		 op.extent.truncate_seq);
+
+      if (op_finisher == nullptr) {
+	result = do_extent_cmp(ctx, osd_op);
+      } else {
+	result = op_finisher->execute();
+      }
+      break;
+
+    case CEPH_OSD_OP_SYNC_READ:
+      if (pool.info.is_erasure()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      // fall through
+    case CEPH_OSD_OP_READ:
+      ++ctx->num_read;
+      tracepoint(osd, do_osd_op_pre_read, soid.oid.name.c_str(),
+		 soid.snap.val, oi.size, oi.truncate_seq, op.extent.offset,
+		 op.extent.length, op.extent.truncate_size,
+		 op.extent.truncate_seq);
+      if (op_finisher == nullptr) {
+	if (!ctx->data_off) {
+	  ctx->data_off = op.extent.offset;
+	}
+	result = do_read(ctx, osd_op);
+      } else {
+	result = op_finisher->execute();
+      }
+      break;
+
+    case CEPH_OSD_OP_CHECKSUM:
+      ++ctx->num_read;
+      {
+	tracepoint(osd, do_osd_op_pre_checksum, soid.oid.name.c_str(),
+		   soid.snap.val, oi.size, oi.truncate_seq, op.checksum.type,
+		   op.checksum.offset, op.checksum.length,
+		   op.checksum.chunk_size);
+
+	if (op_finisher == nullptr) {
+	  result = do_checksum(ctx, osd_op, &bp);
+	} else {
+	  result = op_finisher->execute();
+	}
+      }
+      break;
+
+    /* map extents */
+    case CEPH_OSD_OP_MAPEXT:
+      tracepoint(osd, do_osd_op_pre_mapext, soid.oid.name.c_str(), soid.snap.val, op.extent.offset, op.extent.length);
+      if (pool.info.is_erasure()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_read;
+      {
+	// read into a buffer
+	bufferlist bl;
+	int r = osd->store->fiemap(ch, ghobject_t(soid, ghobject_t::NO_GEN,
+						  info.pgid.shard),
+				   op.extent.offset, op.extent.length, bl);
+	osd_op.outdata = std::move(bl);
+	if (r < 0)
+	  result = r;
+	else
+	  ctx->delta_stats.num_rd_kb += shift_round_up(bl.length(), 10);
+	ctx->delta_stats.num_rd++;
+	dout(10) << " map_extents done on object " << soid << dendl;
+      }
+      break;
+
+    /* map extents */
+    case CEPH_OSD_OP_SPARSE_READ:
+      tracepoint(osd, do_osd_op_pre_sparse_read, soid.oid.name.c_str(),
+		 soid.snap.val, oi.size, oi.truncate_seq, op.extent.offset,
+		 op.extent.length, op.extent.truncate_size,
+		 op.extent.truncate_seq);
+      if (op_finisher == nullptr) {
+	result = do_sparse_read(ctx, osd_op);
+      } else {
+	result = op_finisher->execute();
+      }
+      break;
+
+    case CEPH_OSD_OP_CALL:
+      {
+	string cname, mname;
+	bufferlist indata;
+	try {
+	  bp.copy(op.cls.class_len, cname);
+	  bp.copy(op.cls.method_len, mname);
+	  bp.copy(op.cls.indata_len, indata);
+	} catch (ceph::buffer::error& e) {
+	  dout(10) << "call unable to decode class + method + indata" << dendl;
+	  dout(30) << "in dump: ";
+	  osd_op.indata.hexdump(*_dout);
+	  *_dout << dendl;
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_call, soid.oid.name.c_str(), soid.snap.val, "???", "???");
+	  break;
+	}
+	tracepoint(osd, do_osd_op_pre_call, soid.oid.name.c_str(), soid.snap.val, cname.c_str(), mname.c_str());
+
+	ClassHandler::ClassData *cls;
+	result = ClassHandler::get_instance().open_class(cname, &cls);
+	ceph_assert(result == 0);   // init_op_flags() already verified this works.
+
+	ClassHandler::ClassMethod *method = cls->get_method(mname);
+	if (!method) {
+	  dout(10) << "call method " << cname << "." << mname << " does not exist" << dendl;
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+
+	int flags = method->get_flags();
+	if (flags & CLS_METHOD_WR)
+	  ctx->user_modify = true;
+
+	bufferlist outdata;
+	dout(10) << "call method " << cname << "." << mname << dendl;
+	int prev_rd = ctx->num_read;
+	int prev_wr = ctx->num_write;
+	result = method->exec((cls_method_context_t)&ctx, indata, outdata);
+
+	if (ctx->num_read > prev_rd && !(flags & CLS_METHOD_RD)) {
+	  derr << "method " << cname << "." << mname << " tried to read object but is not marked RD" << dendl;
+	  result = -EIO;
+	  break;
+	}
+	if (ctx->num_write > prev_wr && !(flags & CLS_METHOD_WR)) {
+	  derr << "method " << cname << "." << mname << " tried to update object but is not marked WR" << dendl;
+	  result = -EIO;
+	  break;
+	}
+
+	dout(10) << "method called response length=" << outdata.length() << dendl;
+	op.extent.length = outdata.length();
+	osd_op.outdata.claim_append(outdata);
+	dout(30) << "out dump: ";
+	osd_op.outdata.hexdump(*_dout);
+	*_dout << dendl;
+      }
+      break;
+
+    case CEPH_OSD_OP_STAT:
+      // note: stat does not require RD
+      {
+	tracepoint(osd, do_osd_op_pre_stat, soid.oid.name.c_str(), soid.snap.val);
+
+	if (obs.exists && !oi.is_whiteout()) {
+	  encode(oi.size, osd_op.outdata);
+	  encode(oi.mtime, osd_op.outdata);
+	  dout(10) << "stat oi has " << oi.size << " " << oi.mtime << dendl;
+	} else {
+	  result = -ENOENT;
+	  dout(10) << "stat oi object does not exist" << dendl;
+	}
+
+	ctx->delta_stats.num_rd++;
+      }
+      break;
+
+    case CEPH_OSD_OP_ISDIRTY:
+      ++ctx->num_read;
+      {
+	tracepoint(osd, do_osd_op_pre_isdirty, soid.oid.name.c_str(), soid.snap.val);
+	bool is_dirty = obs.oi.is_dirty();
+	encode(is_dirty, osd_op.outdata);
+	ctx->delta_stats.num_rd++;
+	result = 0;
+      }
+      break;
+
+    case CEPH_OSD_OP_UNDIRTY:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_undirty, soid.oid.name.c_str(), soid.snap.val);
+	if (oi.is_dirty()) {
+	  ctx->undirty = true;  // see make_writeable()
+	  ctx->modify = true;
+	  ctx->delta_stats.num_wr++;
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_CACHE_TRY_FLUSH:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_try_flush, soid.oid.name.c_str(), soid.snap.val);
+	if (ctx->lock_type != RWState::RWNONE) {
+	  dout(10) << "cache-try-flush without SKIPRWLOCKS flag set" << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+	if (pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE || obs.oi.has_manifest()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = 0;
+	  break;
+	}
+	if (oi.is_cache_pinned()) {
+	  dout(10) << "cache-try-flush on a pinned object, consider unpin this object first" << dendl;
+	  result = -EPERM;
+	  break;
+	}
+	if (oi.is_dirty()) {
+	  result = start_flush(ctx->op, ctx->obc, false, NULL, std::nullopt);
+	  if (result == -EINPROGRESS)
+	    result = -EAGAIN;
+	} else {
+	  result = 0;
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_CACHE_FLUSH:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_cache_flush, soid.oid.name.c_str(), soid.snap.val);
+	if (ctx->lock_type == RWState::RWNONE) {
+	  dout(10) << "cache-flush with SKIPRWLOCKS flag set" << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+	if (pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE || obs.oi.has_manifest()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = 0;
+	  break;
+	}
+	if (oi.is_cache_pinned()) {
+	  dout(10) << "cache-flush on a pinned object, consider unpin this object first" << dendl;
+	  result = -EPERM;
+	  break;
+	}
+	hobject_t missing;
+	if (oi.is_dirty()) {
+	  result = start_flush(ctx->op, ctx->obc, true, &missing, std::nullopt);
+	  if (result == -EINPROGRESS)
+	    result = -EAGAIN;
+	} else {
+	  result = 0;
+	}
+	// Check special return value which has set missing_return
+        if (result == -ENOENT) {
+          dout(10) << __func__ << " CEPH_OSD_OP_CACHE_FLUSH got ENOENT" << dendl;
+	  ceph_assert(!missing.is_min());
+	  wait_for_unreadable_object(missing, ctx->op);
+	  // Error code which is used elsewhere when wait_for_unreadable_object() is used
+	  result = -EAGAIN;
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_CACHE_EVICT:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_cache_evict, soid.oid.name.c_str(), soid.snap.val);
+	if (pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE || obs.oi.has_manifest()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = 0;
+	  break;
+	}
+	if (oi.is_cache_pinned()) {
+	  dout(10) << "cache-evict on a pinned object, consider unpin this object first" << dendl;
+	  result = -EPERM;
+	  break;
+	}
+	if (oi.is_dirty()) {
+	  result = -EBUSY;
+	  break;
+	}
+	if (!oi.watchers.empty()) {
+	  result = -EBUSY;
+	  break;
+	}
+	if (soid.snap == CEPH_NOSNAP) {
+	  result = _verify_no_head_clones(soid, ssc->snapset);
+	  if (result < 0)
+	    break;
+	}
+	result = _delete_oid(ctx, true, false);
+	if (result >= 0) {
+	  // mark that this is a cache eviction to avoid triggering normal
+	  // make_writeable() clone creation in finish_ctx()
+	  ctx->cache_operation = true;
+	}
+	osd->logger->inc(l_osd_tier_evict);
+      }
+      break;
+
+    case CEPH_OSD_OP_GETXATTR:
+      ++ctx->num_read;
+      {
+	string aname;
+	bp.copy(op.xattr.name_len, aname);
+	tracepoint(osd, do_osd_op_pre_getxattr, soid.oid.name.c_str(), soid.snap.val, aname.c_str());
+	string name = "_" + aname;
+	int r = getattr_maybe_cache(
+	  ctx->obc,
+	  name,
+	  &(osd_op.outdata));
+	if (r >= 0) {
+	  op.xattr.value_len = osd_op.outdata.length();
+	  result = 0;
+	  ctx->delta_stats.num_rd_kb += shift_round_up(osd_op.outdata.length(), 10);
+	} else
+	  result = r;
+
+	ctx->delta_stats.num_rd++;
+      }
+      break;
+
+   case CEPH_OSD_OP_GETXATTRS:
+      ++ctx->num_read;
+      {
+	tracepoint(osd, do_osd_op_pre_getxattrs, soid.oid.name.c_str(), soid.snap.val);
+	map<string, bufferlist> out;
+	result = getattrs_maybe_cache(
+	  ctx->obc,
+	  &out);
+
+        bufferlist bl;
+        encode(out, bl);
+	ctx->delta_stats.num_rd_kb += shift_round_up(bl.length(), 10);
+        ctx->delta_stats.num_rd++;
+        osd_op.outdata.claim_append(bl);
+      }
+      break;
+
+    case CEPH_OSD_OP_CMPXATTR:
+      ++ctx->num_read;
+      {
+	string aname;
+	bp.copy(op.xattr.name_len, aname);
+	tracepoint(osd, do_osd_op_pre_cmpxattr, soid.oid.name.c_str(), soid.snap.val, aname.c_str());
+	string name = "_" + aname;
+	name[op.xattr.name_len + 1] = 0;
+
+	bufferlist xattr;
+	result = getattr_maybe_cache(
+	  ctx->obc,
+	  name,
+	  &xattr);
+	if (result < 0 && result != -EEXIST && result != -ENODATA)
+	  break;
+
+	ctx->delta_stats.num_rd++;
+	ctx->delta_stats.num_rd_kb += shift_round_up(xattr.length(), 10);
+
+	switch (op.xattr.cmp_mode) {
+	case CEPH_OSD_CMPXATTR_MODE_STRING:
+	  {
+	    string val;
+	    bp.copy(op.xattr.value_len, val);
+	    val[op.xattr.value_len] = 0;
+	    dout(10) << "CEPH_OSD_OP_CMPXATTR name=" << name << " val=" << val
+		     << " op=" << (int)op.xattr.cmp_op << " mode=" << (int)op.xattr.cmp_mode << dendl;
+	    result = do_xattr_cmp_str(op.xattr.cmp_op, val, xattr);
+	  }
+	  break;
+
+        case CEPH_OSD_CMPXATTR_MODE_U64:
+	  {
+	    uint64_t u64val;
+	    try {
+	      decode(u64val, bp);
+	    }
+	    catch (ceph::buffer::error& e) {
+	      result = -EINVAL;
+	      goto fail;
+	    }
+	    dout(10) << "CEPH_OSD_OP_CMPXATTR name=" << name << " val=" << u64val
+		     << " op=" << (int)op.xattr.cmp_op << " mode=" << (int)op.xattr.cmp_mode << dendl;
+	    result = do_xattr_cmp_u64(op.xattr.cmp_op, u64val, xattr);
+	  }
+	  break;
+
+	default:
+	  dout(10) << "bad cmp mode " << (int)op.xattr.cmp_mode << dendl;
+	  result = -EINVAL;
+	}
+
+	if (!result) {
+	  dout(10) << "comparison returned false" << dendl;
+	  result = -ECANCELED;
+	  break;
+	}
+	if (result < 0) {
+	  dout(10) << "comparison returned " << result << " " << cpp_strerror(-result) << dendl;
+	  break;
+	}
+
+	dout(10) << "comparison returned true" << dendl;
+      }
+      break;
+
+    case CEPH_OSD_OP_ASSERT_VER:
+      ++ctx->num_read;
+      {
+	uint64_t ver = op.assert_ver.ver;
+	tracepoint(osd, do_osd_op_pre_assert_ver, soid.oid.name.c_str(), soid.snap.val, ver);
+	if (!ver)
+	  result = -EINVAL;
+        else if (ver < oi.user_version)
+	  result = -ERANGE;
+	else if (ver > oi.user_version)
+	  result = -EOVERFLOW;
+      }
+      break;
+
+    case CEPH_OSD_OP_LIST_WATCHERS:
+      ++ctx->num_read;
+      {
+	tracepoint(osd, do_osd_op_pre_list_watchers, soid.oid.name.c_str(), soid.snap.val);
+        obj_list_watch_response_t resp;
+
+        map<pair<uint64_t, entity_name_t>, watch_info_t>::const_iterator oi_iter;
+        for (oi_iter = oi.watchers.begin(); oi_iter != oi.watchers.end();
+                                       ++oi_iter) {
+          dout(20) << "key cookie=" << oi_iter->first.first
+               << " entity=" << oi_iter->first.second << " "
+               << oi_iter->second << dendl;
+          ceph_assert(oi_iter->first.first == oi_iter->second.cookie);
+          ceph_assert(oi_iter->first.second.is_client());
+
+          watch_item_t wi(oi_iter->first.second, oi_iter->second.cookie,
+		 oi_iter->second.timeout_seconds, oi_iter->second.addr);
+          resp.entries.push_back(wi);
+        }
+
+        resp.encode(osd_op.outdata, ctx->get_features());
+        result = 0;
+
+        ctx->delta_stats.num_rd++;
+        break;
+      }
+
+    case CEPH_OSD_OP_LIST_SNAPS:
+      ++ctx->num_read;
+      {
+	tracepoint(osd, do_osd_op_pre_list_snaps, soid.oid.name.c_str(), soid.snap.val);
+        obj_list_snap_response_t resp;
+
+        if (!ssc) {
+	  ssc = ctx->obc->ssc = get_snapset_context(soid, false);
+        }
+        ceph_assert(ssc);
+	dout(20) << " snapset " << ssc->snapset << dendl;
+
+        int clonecount = ssc->snapset.clones.size();
+	clonecount++;  // for head
+        resp.clones.reserve(clonecount);
+        for (auto clone_iter = ssc->snapset.clones.begin();
+	     clone_iter != ssc->snapset.clones.end(); ++clone_iter) {
+          clone_info ci;
+          ci.cloneid = *clone_iter;
+
+	  hobject_t clone_oid = soid;
+	  clone_oid.snap = *clone_iter;
+
+	  auto p = ssc->snapset.clone_snaps.find(*clone_iter);
+	  if (p == ssc->snapset.clone_snaps.end()) {
+	    osd->clog->error() << "osd." << osd->whoami
+			       << ": inconsistent clone_snaps found for oid "
+			       << soid << " clone " << *clone_iter
+			       << " snapset " << ssc->snapset;
+	    result = -EINVAL;
+	    break;
+	  }
+	  for (auto q = p->second.rbegin(); q != p->second.rend(); ++q) {
+	    ci.snaps.push_back(*q);
+	  }
+
+          dout(20) << " clone " << *clone_iter << " snaps " << ci.snaps << dendl;
+
+          map<snapid_t, interval_set<uint64_t> >::const_iterator coi;
+          coi = ssc->snapset.clone_overlap.find(ci.cloneid);
+          if (coi == ssc->snapset.clone_overlap.end()) {
+            osd->clog->error() << "osd." << osd->whoami
+			       << ": inconsistent clone_overlap found for oid "
+			      << soid << " clone " << *clone_iter;
+            result = -EINVAL;
+            break;
+          }
+          const interval_set<uint64_t> &o = coi->second;
+          ci.overlap.reserve(o.num_intervals());
+          for (interval_set<uint64_t>::const_iterator r = o.begin();
+               r != o.end(); ++r) {
+            ci.overlap.push_back(pair<uint64_t,uint64_t>(r.get_start(),
+							 r.get_len()));
+          }
+
+          map<snapid_t, uint64_t>::const_iterator si;
+          si = ssc->snapset.clone_size.find(ci.cloneid);
+          if (si == ssc->snapset.clone_size.end()) {
+            osd->clog->error() << "osd." << osd->whoami
+			       << ": inconsistent clone_size found for oid "
+			       << soid << " clone " << *clone_iter;
+            result = -EINVAL;
+            break;
+          }
+          ci.size = si->second;
+
+          resp.clones.push_back(ci);
+        }
+	if (result < 0) {
+	  break;
+	}
+        if (!ctx->obc->obs.oi.is_whiteout()) {
+          ceph_assert(obs.exists);
+          clone_info ci;
+          ci.cloneid = CEPH_NOSNAP;
+
+          //Size for HEAD is oi.size
+          ci.size = oi.size;
+
+          resp.clones.push_back(ci);
+        }
+	resp.seq = ssc->snapset.seq;
+
+        resp.encode(osd_op.outdata);
+        result = 0;
+
+        ctx->delta_stats.num_rd++;
+        break;
+      }
+
+   case CEPH_OSD_OP_NOTIFY:
+      ++ctx->num_read;
+      {
+	uint32_t timeout;
+        bufferlist bl;
+
+	try {
+	  uint32_t ver; // obsolete
+          decode(ver, bp);
+	  decode(timeout, bp);
+          decode(bl, bp);
+	} catch (const ceph::buffer::error &e) {
+	  timeout = 0;
+	}
+	tracepoint(osd, do_osd_op_pre_notify, soid.oid.name.c_str(), soid.snap.val, timeout);
+	if (!timeout)
+	  timeout = cct->_conf->osd_default_notify_timeout;
+
+	notify_info_t n;
+	n.timeout = timeout;
+	n.notify_id = osd->get_next_id(get_osdmap_epoch());
+	n.cookie = op.notify.cookie;
+        n.bl = bl;
+	ctx->notifies.push_back(n);
+
+	// return our unique notify id to the client
+	encode(n.notify_id, osd_op.outdata);
+      }
+      break;
+
+    case CEPH_OSD_OP_NOTIFY_ACK:
+      ++ctx->num_read;
+      {
+	try {
+	  uint64_t notify_id = 0;
+	  uint64_t watch_cookie = 0;
+	  decode(notify_id, bp);
+	  decode(watch_cookie, bp);
+	  bufferlist reply_bl;
+	  if (!bp.end()) {
+	    decode(reply_bl, bp);
+	  }
+	  tracepoint(osd, do_osd_op_pre_notify_ack, soid.oid.name.c_str(), soid.snap.val, notify_id, watch_cookie, "Y");
+	  OpContext::NotifyAck ack(notify_id, watch_cookie, reply_bl);
+	  ctx->notify_acks.push_back(ack);
+	} catch (const ceph::buffer::error &e) {
+	  tracepoint(osd, do_osd_op_pre_notify_ack, soid.oid.name.c_str(), soid.snap.val, op.watch.cookie, 0, "N");
+	  OpContext::NotifyAck ack(
+	    // op.watch.cookie is actually the notify_id for historical reasons
+	    op.watch.cookie
+	    );
+	  ctx->notify_acks.push_back(ack);
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_SETALLOCHINT:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_setallochint, soid.oid.name.c_str(), soid.snap.val, op.alloc_hint.expected_object_size, op.alloc_hint.expected_write_size);
+	maybe_create_new_object(ctx);
+	oi.expected_object_size = op.alloc_hint.expected_object_size;
+	oi.expected_write_size = op.alloc_hint.expected_write_size;
+	oi.alloc_hint_flags = op.alloc_hint.flags;
+        t->set_alloc_hint(soid, op.alloc_hint.expected_object_size,
+                          op.alloc_hint.expected_write_size,
+			  op.alloc_hint.flags);
+      }
+      break;
+
+
+      // --- WRITES ---
+
+      // -- object data --
+
+    case CEPH_OSD_OP_WRITE:
+      ++ctx->num_write;
+      result = 0;
+      { // write
+        __u32 seq = oi.truncate_seq;
+	tracepoint(osd, do_osd_op_pre_write, soid.oid.name.c_str(), soid.snap.val, oi.size, seq, op.extent.offset, op.extent.length, op.extent.truncate_size, op.extent.truncate_seq);
+	if (op.extent.length != osd_op.indata.length()) {
+	  result = -EINVAL;
+	  break;
+	}
+
+	if (pool.info.has_flag(pg_pool_t::FLAG_WRITE_FADVISE_DONTNEED))
+	  op.flags = op.flags | CEPH_OSD_OP_FLAG_FADVISE_DONTNEED;
+
+	if (pool.info.requires_aligned_append() &&
+	    (op.extent.offset % pool.info.required_alignment() != 0)) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+
+	if (!obs.exists) {
+	  if (pool.info.requires_aligned_append() && op.extent.offset) {
+	    result = -EOPNOTSUPP;
+	    break;
+	  }
+	} else if (op.extent.offset != oi.size &&
+		   pool.info.requires_aligned_append()) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+
+        if (seq && (seq > op.extent.truncate_seq) &&
+            (op.extent.offset + op.extent.length > oi.size)) {
+	  // old write, arrived after trimtrunc
+	  op.extent.length = (op.extent.offset > oi.size ? 0 : oi.size - op.extent.offset);
+	  dout(10) << " old truncate_seq " << op.extent.truncate_seq << " < current " << seq
+		   << ", adjusting write length to " << op.extent.length << dendl;
+	  bufferlist t;
+	  t.substr_of(osd_op.indata, 0, op.extent.length);
+	  osd_op.indata.swap(t);
+        }
+	if (op.extent.truncate_seq > seq) {
+	  // write arrives before trimtrunc
+	  if (obs.exists && !oi.is_whiteout()) {
+	    dout(10) << " truncate_seq " << op.extent.truncate_seq << " > current " << seq
+		     << ", truncating to " << op.extent.truncate_size << dendl;
+	    t->truncate(soid, op.extent.truncate_size);
+	    oi.truncate_seq = op.extent.truncate_seq;
+	    oi.truncate_size = op.extent.truncate_size;
+	    if (oi.size > op.extent.truncate_size) {
+	      interval_set<uint64_t> trim;
+	      trim.insert(op.extent.truncate_size,
+	        oi.size - op.extent.truncate_size);
+	      ctx->modified_ranges.union_of(trim);
+	      ctx->clean_regions.mark_data_region_dirty(op.extent.truncate_size, oi.size - op.extent.truncate_size);
+	      oi.clear_data_digest();
+	    }
+	    if (op.extent.truncate_size != oi.size) {
+              truncate_update_size_and_usage(ctx->delta_stats,
+                                             oi,
+                                             op.extent.truncate_size);
+	    }
+	  } else {
+	    dout(10) << " truncate_seq " << op.extent.truncate_seq << " > current " << seq
+		     << ", but object is new" << dendl;
+	    oi.truncate_seq = op.extent.truncate_seq;
+	    oi.truncate_size = op.extent.truncate_size;
+	  }
+	}
+	result = check_offset_and_length(
+	  op.extent.offset, op.extent.length,
+	  static_cast<Option::size_t>(osd->osd_max_object_size), get_dpp());
+	if (result < 0)
+	  break;
+
+	maybe_create_new_object(ctx);
+
+	if (op.extent.length == 0) {
+	  if (op.extent.offset > oi.size) {
+	    t->truncate(
+	      soid, op.extent.offset);
+            truncate_update_size_and_usage(ctx->delta_stats, oi,
+                                           op.extent.offset);
+	  } else {
+	    t->nop(soid);
+	  }
+	} else {
+	  t->write(
+	    soid, op.extent.offset, op.extent.length, osd_op.indata, op.flags);
+	}
+
+	if (op.extent.offset == 0 && op.extent.length >= oi.size
+            && !skip_data_digest) {
+	  obs.oi.set_data_digest(osd_op.indata.crc32c(-1));
+	} else if (op.extent.offset == oi.size && obs.oi.is_data_digest()) {
+          if (skip_data_digest) {
+            obs.oi.clear_data_digest();
+          } else {
+	    obs.oi.set_data_digest(osd_op.indata.crc32c(obs.oi.data_digest));
+          }
+	} else {
+	  obs.oi.clear_data_digest();
+        }
+	write_update_size_and_usage(ctx->delta_stats, oi, ctx->modified_ranges,
+				    op.extent.offset, op.extent.length);
+	ctx->clean_regions.mark_data_region_dirty(op.extent.offset, op.extent.length);
+	dout(10) << "clean_regions modified" << ctx->clean_regions << dendl;
+      }
+      break;
+
+    case CEPH_OSD_OP_WRITEFULL:
+      ++ctx->num_write;
+      result = 0;
+      { // write full object
+	tracepoint(osd, do_osd_op_pre_writefull, soid.oid.name.c_str(), soid.snap.val, oi.size, 0, op.extent.length);
+
+	if (op.extent.length != osd_op.indata.length()) {
+	  result = -EINVAL;
+	  break;
+	}
+	result = check_offset_and_length(
+	  0, op.extent.length,
+          static_cast<Option::size_t>(osd->osd_max_object_size), get_dpp());
+	if (result < 0)
+	  break;
+
+	if (pool.info.has_flag(pg_pool_t::FLAG_WRITE_FADVISE_DONTNEED))
+	  op.flags = op.flags | CEPH_OSD_OP_FLAG_FADVISE_DONTNEED;
+
+	maybe_create_new_object(ctx);
+	if (pool.info.is_erasure()) {
+	  t->truncate(soid, 0);
+	} else if (obs.exists && op.extent.length < oi.size) {
+	  t->truncate(soid, op.extent.length);
+	}
+	if (op.extent.length) {
+	  t->write(soid, 0, op.extent.length, osd_op.indata, op.flags);
+	}
+        if (!skip_data_digest) {
+	  obs.oi.set_data_digest(osd_op.indata.crc32c(-1));
+        } else {
+	  obs.oi.clear_data_digest();
+	}
+        ctx->clean_regions.mark_data_region_dirty(0,
+          std::max((uint64_t)op.extent.length, oi.size));
+	write_update_size_and_usage(ctx->delta_stats, oi, ctx->modified_ranges,
+	    0, op.extent.length, true);
+      }
+      break;
+
+    case CEPH_OSD_OP_WRITESAME:
+      ++ctx->num_write;
+      tracepoint(osd, do_osd_op_pre_writesame, soid.oid.name.c_str(), soid.snap.val, oi.size, op.writesame.offset, op.writesame.length, op.writesame.data_length);
+      result = do_writesame(ctx, osd_op);
+      break;
+
+    case CEPH_OSD_OP_ROLLBACK :
+      ++ctx->num_write;
+      tracepoint(osd, do_osd_op_pre_rollback, soid.oid.name.c_str(), soid.snap.val);
+      result = _rollback_to(ctx, op);
+      break;
+
+    case CEPH_OSD_OP_ZERO:
+      tracepoint(osd, do_osd_op_pre_zero, soid.oid.name.c_str(), soid.snap.val, op.extent.offset, op.extent.length);
+      if (pool.info.requires_aligned_append()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_write;
+      { // zero
+	result = check_offset_and_length(
+	  op.extent.offset, op.extent.length,
+          static_cast<Option::size_t>(osd->osd_max_object_size), get_dpp());
+	if (result < 0)
+	  break;
+
+	ceph_assert(op.extent.length);
+	if (obs.exists && !oi.is_whiteout()) {
+	  t->zero(soid, op.extent.offset, op.extent.length);
+	  interval_set<uint64_t> ch;
+	  ch.insert(op.extent.offset, op.extent.length);
+	  ctx->modified_ranges.union_of(ch);
+	  ctx->clean_regions.mark_data_region_dirty(op.extent.offset, op.extent.length);
+	  ctx->delta_stats.num_wr++;
+	  oi.clear_data_digest();
+	} else {
+	  // no-op
+	}
+      }
+      break;
+    case CEPH_OSD_OP_CREATE:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_create, soid.oid.name.c_str(), soid.snap.val);
+	if (obs.exists && !oi.is_whiteout() &&
+	    (op.flags & CEPH_OSD_OP_FLAG_EXCL)) {
+          result = -EEXIST; /* this is an exclusive create */
+	} else {
+	  if (osd_op.indata.length()) {
+	    auto p = osd_op.indata.cbegin();
+	    string category;
+	    try {
+	      decode(category, p);
+	    }
+	    catch (ceph::buffer::error& e) {
+	      result = -EINVAL;
+	      goto fail;
+	    }
+	    // category is no longer implemented.
+	  }
+	  maybe_create_new_object(ctx);
+	  t->nop(soid);
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_TRIMTRUNC:
+      op.extent.offset = op.extent.truncate_size;
+      // falling through
+
+    case CEPH_OSD_OP_TRUNCATE:
+      tracepoint(osd, do_osd_op_pre_truncate, soid.oid.name.c_str(), soid.snap.val, oi.size, oi.truncate_seq, op.extent.offset, op.extent.length, op.extent.truncate_size, op.extent.truncate_seq);
+      if (pool.info.requires_aligned_append()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	// truncate
+	if (!obs.exists || oi.is_whiteout()) {
+	  dout(10) << " object dne, truncate is a no-op" << dendl;
+	  break;
+	}
+
+        result = check_offset_and_length(
+	  op.extent.offset, op.extent.length,
+          static_cast<Option::size_t>(osd->osd_max_object_size), get_dpp());
+        if (result < 0)
+	  break;
+
+	if (op.extent.truncate_seq) {
+	  ceph_assert(op.extent.offset == op.extent.truncate_size);
+	  if (op.extent.truncate_seq <= oi.truncate_seq) {
+	    dout(10) << " truncate seq " << op.extent.truncate_seq << " <= current " << oi.truncate_seq
+		     << ", no-op" << dendl;
+	    break; // old
+	  }
+	  dout(10) << " truncate seq " << op.extent.truncate_seq << " > current " << oi.truncate_seq
+		   << ", truncating" << dendl;
+	  oi.truncate_seq = op.extent.truncate_seq;
+	  oi.truncate_size = op.extent.truncate_size;
+	}
+
+	maybe_create_new_object(ctx);
+	t->truncate(soid, op.extent.offset);
+	if (oi.size > op.extent.offset) {
+	  interval_set<uint64_t> trim;
+	  trim.insert(op.extent.offset, oi.size-op.extent.offset);
+	  ctx->modified_ranges.union_of(trim);
+	  ctx->clean_regions.mark_data_region_dirty(op.extent.offset, oi.size - op.extent.offset);
+	} else if (oi.size < op.extent.offset) {
+          ctx->clean_regions.mark_data_region_dirty(oi.size, op.extent.offset - oi.size);
+        }
+	if (op.extent.offset != oi.size) {
+          truncate_update_size_and_usage(ctx->delta_stats,
+                                         oi,
+                                         op.extent.offset);
+	}
+	ctx->delta_stats.num_wr++;
+	// do no set exists, or we will break above DELETE -> TRUNCATE munging.
+
+	oi.clear_data_digest();
+      }
+      break;
+
+    case CEPH_OSD_OP_DELETE:
+      ++ctx->num_write;
+      result = 0;
+      tracepoint(osd, do_osd_op_pre_delete, soid.oid.name.c_str(), soid.snap.val);
+      {
+	result = _delete_oid(ctx, false, ctx->ignore_cache);
+      }
+      break;
+
+    case CEPH_OSD_OP_WATCH:
+      ++ctx->num_write;
+      result = 0;
+      {
+	tracepoint(osd, do_osd_op_pre_watch, soid.oid.name.c_str(), soid.snap.val,
+		   op.watch.cookie, op.watch.op);
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	result = 0;
+        uint64_t cookie = op.watch.cookie;
+        entity_name_t entity = ctx->reqid.name;
+	ObjectContextRef obc = ctx->obc;
+
+	dout(10) << "watch " << ceph_osd_watch_op_name(op.watch.op)
+		 << ": ctx->obc=" << (void *)obc.get() << " cookie=" << cookie
+		 << " oi.version=" << oi.version.version << " ctx->at_version=" << ctx->at_version << dendl;
+	dout(10) << "watch: oi.user_version=" << oi.user_version<< dendl;
+	dout(10) << "watch: peer_addr="
+	  << ctx->op->get_req()->get_connection()->get_peer_addr() << dendl;
+
+	uint32_t timeout = cct->_conf->osd_client_watch_timeout;
+	if (op.watch.timeout != 0) {
+	  timeout = op.watch.timeout;
+	}
+
+	watch_info_t w(cookie, timeout,
+	  ctx->op->get_req()->get_connection()->get_peer_addr());
+	if (op.watch.op == CEPH_OSD_WATCH_OP_WATCH ||
+	    op.watch.op == CEPH_OSD_WATCH_OP_LEGACY_WATCH) {
+	  if (oi.watchers.count(make_pair(cookie, entity))) {
+	    dout(10) << " found existing watch " << w << " by " << entity << dendl;
+	  } else {
+	    dout(10) << " registered new watch " << w << " by " << entity << dendl;
+	    oi.watchers[make_pair(cookie, entity)] = w;
+	    t->nop(soid);  // make sure update the object_info on disk!
+	  }
+	  bool will_ping = (op.watch.op == CEPH_OSD_WATCH_OP_WATCH);
+	  ctx->watch_connects.push_back(make_pair(w, will_ping));
+        } else if (op.watch.op == CEPH_OSD_WATCH_OP_RECONNECT) {
+	  if (!oi.watchers.count(make_pair(cookie, entity))) {
+	    result = -ENOTCONN;
+	    break;
+	  }
+	  dout(10) << " found existing watch " << w << " by " << entity << dendl;
+	  ctx->watch_connects.push_back(make_pair(w, true));
+        } else if (op.watch.op == CEPH_OSD_WATCH_OP_PING) {
+	  /* Note: WATCH with PING doesn't cause may_write() to return true,
+	   * so if there is nothing else in the transaction, this is going
+	   * to run do_osd_op_effects, but not write out a log entry */
+	  if (!oi.watchers.count(make_pair(cookie, entity))) {
+	    result = -ENOTCONN;
+	    break;
+	  }
+	  map<pair<uint64_t,entity_name_t>,WatchRef>::iterator p =
+	    obc->watchers.find(make_pair(cookie, entity));
+	  if (p == obc->watchers.end() ||
+	      !p->second->is_connected()) {
+	    // client needs to reconnect
+	    result = -ETIMEDOUT;
+	    break;
+	  }
+	  dout(10) << " found existing watch " << w << " by " << entity << dendl;
+	  p->second->got_ping(ceph_clock_now());
+	  result = 0;
+        } else if (op.watch.op == CEPH_OSD_WATCH_OP_UNWATCH) {
+	  map<pair<uint64_t, entity_name_t>, watch_info_t>::iterator oi_iter =
+	    oi.watchers.find(make_pair(cookie, entity));
+	  if (oi_iter != oi.watchers.end()) {
+	    dout(10) << " removed watch " << oi_iter->second << " by "
+		     << entity << dendl;
+            oi.watchers.erase(oi_iter);
+	    t->nop(soid);  // update oi on disk
+	    ctx->watch_disconnects.push_back(
+	      watch_disconnect_t(cookie, entity, false));
+	  } else {
+	    dout(10) << " can't remove: no watch by " << entity << dendl;
+	  }
+        }
+      }
+      break;
+
+    case CEPH_OSD_OP_CACHE_PIN:
+      tracepoint(osd, do_osd_op_pre_cache_pin, soid.oid.name.c_str(), soid.snap.val);
+      if ((!pool.info.is_tier() ||
+	  pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE)) {
+        result = -EINVAL;
+        dout(10) << " pin object is only allowed on the cache tier " << dendl;
+        break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  break;
+	}
+
+	if (!oi.is_cache_pinned()) {
+	  oi.set_flag(object_info_t::FLAG_CACHE_PIN);
+	  ctx->modify = true;
+	  ctx->delta_stats.num_objects_pinned++;
+	  ctx->delta_stats.num_wr++;
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_CACHE_UNPIN:
+      tracepoint(osd, do_osd_op_pre_cache_unpin, soid.oid.name.c_str(), soid.snap.val);
+      if ((!pool.info.is_tier() ||
+	  pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE)) {
+        result = -EINVAL;
+        dout(10) << " pin object is only allowed on the cache tier " << dendl;
+        break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  break;
+	}
+
+	if (oi.is_cache_pinned()) {
+	  oi.clear_flag(object_info_t::FLAG_CACHE_PIN);
+	  ctx->modify = true;
+	  ctx->delta_stats.num_objects_pinned--;
+	  ctx->delta_stats.num_wr++;
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_SET_REDIRECT:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (pool.info.is_tier()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (get_osdmap()->require_osd_release < ceph_release_t::luminous) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+
+	object_t target_name;
+	object_locator_t target_oloc;
+	snapid_t target_snapid = (uint64_t)op.copy_from.snapid;
+	version_t target_version = op.copy_from.src_version;
+	try {
+	  decode(target_name, bp);
+	  decode(target_oloc, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  goto fail;
+	}
+	pg_t raw_pg;
+	result = get_osdmap()->object_locator_to_pg(target_name, target_oloc, raw_pg);
+	if (result < 0) {
+	  dout(5) << " pool information is invalid: " << result << dendl;
+	  break;
+	}
+	hobject_t target(target_name, target_oloc.key, target_snapid,
+		raw_pg.ps(), raw_pg.pool(),
+		target_oloc.nspace);
+	if (target == soid) {
+	  dout(20) << " set-redirect self is invalid" << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+
+	bool need_reference = (osd_op.op.flags & CEPH_OSD_OP_FLAG_WITH_REFERENCE);
+	bool has_reference = (oi.flags & object_info_t::FLAG_REDIRECT_HAS_REFERENCE);
+	if (has_reference) {
+	  result = -EINVAL;
+	  dout(5) << " the object is already a manifest " << dendl;
+	  break;
+	}
+	if (op_finisher == nullptr && need_reference) {
+	  // start
+	  ctx->op_finishers[ctx->current_osd_subop_num].reset(
+	    new SetManifestFinisher(osd_op));
+	  ManifestOpRef mop = std::make_shared<ManifestOp>(new RefCountCallback(ctx, osd_op));
+	  C_SetManifestRefCountDone* fin = new C_SetManifestRefCountDone(this, mop, soid);
+	  ceph_tid_t tid = refcount_manifest(soid, target, 
+					      refcount_t::INCREMENT_REF, fin, std::nullopt);
+	  mop->objecter_tid = tid;
+	  manifest_ops[soid] = mop;
+	  ctx->obc->start_block();
+	  result = -EINPROGRESS;
+	} else {
+	  // finish
+	  if (op_finisher) {
+	    result = op_finisher->execute();
+	    ceph_assert(result == 0);
+	  }
+
+	  if (!oi.has_manifest() && !oi.manifest.is_redirect())
+	    ctx->delta_stats.num_objects_manifest++;
+
+	  oi.set_flag(object_info_t::FLAG_MANIFEST);
+	  oi.manifest.redirect_target = target;
+	  oi.manifest.type = object_manifest_t::TYPE_REDIRECT;
+	  t->truncate(soid, 0);
+          ctx->clean_regions.mark_data_region_dirty(0, oi.size);
+	  if (oi.is_omap() && pool.info.supports_omap()) {
+	    t->omap_clear(soid);
+	    obs.oi.clear_omap_digest();
+	    obs.oi.clear_flag(object_info_t::FLAG_OMAP);
+            ctx->clean_regions.mark_omap_dirty();
+	  }
+          write_update_size_and_usage(ctx->delta_stats, oi, ctx->modified_ranges,
+	    0, oi.size, false);
+	  ctx->delta_stats.num_bytes -= oi.size;
+	  oi.size = 0;
+	  oi.new_object();
+	  oi.user_version = target_version;
+	  ctx->user_at_version = target_version;
+	  /* rm_attrs */
+	  map<string,bufferlist> rmattrs;
+	  result = getattrs_maybe_cache(ctx->obc, &rmattrs);
+	  if (result < 0) {
+	    dout(10) << __func__ << " error: " << cpp_strerror(result) << dendl;
+	    return result;
+	  }
+	  map<string, bufferlist>::iterator iter;
+	  for (iter = rmattrs.begin(); iter != rmattrs.end(); ++iter) {
+	    const string& name = iter->first;
+	    t->rmattr(soid, name);
+	  }
+	  if (!has_reference && need_reference) {
+	    oi.set_flag(object_info_t::FLAG_REDIRECT_HAS_REFERENCE);
+	  }
+	  dout(10) << "set-redirect oid:" << oi.soid << " user_version: " << oi.user_version << dendl;
+	  if (op_finisher) {
+	    ctx->op_finishers.erase(ctx->current_osd_subop_num);
+	  }
+	}
+      }
+
+      break;
+
+    case CEPH_OSD_OP_SET_CHUNK:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (pool.info.is_tier()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (get_osdmap()->require_osd_release < ceph_release_t::luminous) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+	if (oi.manifest.is_redirect()) {
+	  result = -EINVAL;
+	  goto fail;
+	}
+
+	object_locator_t tgt_oloc;
+	uint64_t src_offset, src_length, tgt_offset;
+	object_t tgt_name;
+	try {
+	  decode(src_offset, bp);
+	  decode(src_length, bp);
+	  decode(tgt_oloc, bp);
+	  decode(tgt_name, bp);
+	  decode(tgt_offset, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  goto fail;
+	}
+
+	if (!src_length) {
+	  result = -EINVAL;
+	  goto fail;
+	}
+	if (src_offset + src_length > oi.size) {
+	  result = -ERANGE;
+	  goto fail;
+	}
+	if (!(osd_op.op.flags & CEPH_OSD_OP_FLAG_WITH_REFERENCE)) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+	if (pool.info.is_erasure()) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+
+	for (auto &p : oi.manifest.chunk_map) {
+	  interval_set<uint64_t> chunk;
+	  chunk.insert(p.first, p.second.length);
+	  if (chunk.intersects(src_offset, src_length)) {
+	    dout(20) << __func__ << " overlapped !! offset: " << src_offset << " length: " << src_length
+		    << " chunk_info: " << p << dendl;
+	    result = -EOPNOTSUPP;
+	    goto fail;
+	  }
+	}
+
+	pg_t raw_pg;
+	chunk_info_t chunk_info;
+	result = get_osdmap()->object_locator_to_pg(tgt_name, tgt_oloc, raw_pg);
+	if (result < 0) {
+	  dout(5) << " pool information is invalid: " << result << dendl;
+	  break;
+	}
+	hobject_t target(tgt_name, tgt_oloc.key, snapid_t(),
+			 raw_pg.ps(), raw_pg.pool(),
+			 tgt_oloc.nspace);
+	bool has_reference = (oi.manifest.chunk_map.find(src_offset) != oi.manifest.chunk_map.end()) &&
+			     (oi.manifest.chunk_map[src_offset].test_flag(chunk_info_t::FLAG_HAS_REFERENCE));
+	if (has_reference) {
+	  result = -EINVAL;
+	  dout(5) << " the object is already a manifest " << dendl;
+	  break;
+	}
+	chunk_info.oid = target;
+	chunk_info.offset = tgt_offset;
+	chunk_info.length = src_length;
+	if (op_finisher == nullptr)  {
+	  // start
+	  ctx->op_finishers[ctx->current_osd_subop_num].reset(
+	    new SetManifestFinisher(osd_op));
+	  object_manifest_t set_chunk;
+	  bool need_inc_ref = false;
+	  set_chunk.chunk_map[src_offset] = chunk_info;
+	  need_inc_ref = inc_refcount_by_set(ctx, set_chunk, osd_op);
+	  if (need_inc_ref) {
+	    result = -EINPROGRESS;
+	    break;
+	  }
+	}
+	if (op_finisher) {
+	  result = op_finisher->execute();
+	  ceph_assert(result == 0);
+	}
+
+	oi.manifest.chunk_map[src_offset] = chunk_info;
+	if (!oi.has_manifest() && !oi.manifest.is_chunked())
+	  ctx->delta_stats.num_objects_manifest++;
+	oi.set_flag(object_info_t::FLAG_MANIFEST);
+	oi.manifest.type = object_manifest_t::TYPE_CHUNKED;
+	if (!has_reference) {
+	  oi.manifest.chunk_map[src_offset].set_flag(chunk_info_t::FLAG_HAS_REFERENCE);
+	}
+	ctx->modify = true;
+	ctx->cache_operation = true;
+
+	dout(10) << "set-chunked oid:" << oi.soid << " user_version: " << oi.user_version
+		 << " chunk_info: " << chunk_info << dendl;
+	if (op_finisher) {
+	  ctx->op_finishers.erase(ctx->current_osd_subop_num);
+	}
+      }
+
+      break;
+
+    case CEPH_OSD_OP_TIER_PROMOTE:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (pool.info.is_tier()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (get_osdmap()->require_osd_release < ceph_release_t::luminous) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+	if (!obs.oi.has_manifest()) {
+	  result = 0;
+	  break;
+	}
+
+	if (op_finisher == nullptr) {
+	  PromoteManifestCallback *cb;
+	  object_locator_t my_oloc;
+	  hobject_t src_hoid;
+
+	  if (obs.oi.manifest.is_chunked()) {
+	    src_hoid = obs.oi.soid;
+	  } else if (obs.oi.manifest.is_redirect()) {
+	    object_locator_t src_oloc(obs.oi.manifest.redirect_target);
+	    my_oloc = src_oloc;
+	    src_hoid = obs.oi.manifest.redirect_target;
+	  } else {
+	    ceph_abort_msg("unrecognized manifest type");
+	  }
+	  cb = new PromoteManifestCallback(ctx->obc, this, ctx);
+          ctx->op_finishers[ctx->current_osd_subop_num].reset(
+            new PromoteFinisher(cb));
+	  unsigned flags = CEPH_OSD_COPY_FROM_FLAG_IGNORE_OVERLAY |
+			   CEPH_OSD_COPY_FROM_FLAG_IGNORE_CACHE |
+			   CEPH_OSD_COPY_FROM_FLAG_MAP_SNAP_CLONE |
+			   CEPH_OSD_COPY_FROM_FLAG_RWORDERED;
+	  unsigned src_fadvise_flags = LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL;
+	  start_copy(cb, ctx->obc, src_hoid, my_oloc, 0, flags,
+		     obs.oi.soid.snap == CEPH_NOSNAP,
+		     src_fadvise_flags, 0);
+
+	  dout(10) << "tier-promote oid:" << oi.soid << " manifest: " << obs.oi.manifest << dendl;
+	  result = -EINPROGRESS;
+	} else {
+	  result = op_finisher->execute();
+	  ceph_assert(result == 0);
+	  ctx->op_finishers.erase(ctx->current_osd_subop_num);
+	}
+      }
+
+      break;
+
+    case CEPH_OSD_OP_TIER_FLUSH:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (pool.info.is_tier()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (get_osdmap()->require_osd_release < ceph_release_t::octopus) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+	if (!obs.oi.has_manifest()) {
+	  result = 0;
+	  break;
+	}
+
+	if (oi.is_dirty()) {
+	  result = start_flush(ctx->op, ctx->obc, true, NULL, std::nullopt);
+	  if (result == -EINPROGRESS)
+	    result = -EAGAIN;
+	} else {
+	  result = 0;
+	}
+      }
+
+      break;
+
+    case CEPH_OSD_OP_TIER_EVICT:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (pool.info.is_tier()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (get_osdmap()->require_osd_release < ceph_release_t::octopus) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+	if (!obs.oi.has_manifest()) {
+	  result = -EINVAL;
+	  break;
+	}
+
+	// The chunks already has a reference, so it is just enough to invoke truncate if necessary
+	uint64_t chunk_length = 0;
+	for (auto p : obs.oi.manifest.chunk_map) {
+	  chunk_length += p.second.length;
+	}
+	if (chunk_length == obs.oi.size) {
+	  for (auto &p : obs.oi.manifest.chunk_map) {
+	    p.second.set_flag(chunk_info_t::FLAG_MISSING);
+	  }
+	  // punch hole
+	  t->zero(soid, 0, oi.size);
+	  oi.clear_data_digest();
+	  ctx->delta_stats.num_wr++;
+	  ctx->cache_operation = true;
+	}
+	osd->logger->inc(l_osd_tier_evict);
+      }
+
+      break;
+
+    case CEPH_OSD_OP_UNSET_MANIFEST:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (pool.info.is_tier()) {
+	  result = -EINVAL;
+	  break;
+	}
+	if (!obs.exists) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (!oi.has_manifest()) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+	if (get_osdmap()->require_osd_release < ceph_release_t::luminous) {
+	  result = -EOPNOTSUPP;
+	  break;
+	}
+
+	dec_all_refcount_manifest(oi, ctx);
+
+	oi.clear_flag(object_info_t::FLAG_MANIFEST);
+	oi.manifest = object_manifest_t();
+	ctx->delta_stats.num_objects_manifest--;
+	ctx->delta_stats.num_wr++;
+	ctx->modify = true;
+      }
+
+      break;
+
+      // -- object attrs --
+
+    case CEPH_OSD_OP_SETXATTR:
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (cct->_conf->osd_max_attr_size > 0 &&
+	    op.xattr.value_len > cct->_conf->osd_max_attr_size) {
+	  tracepoint(osd, do_osd_op_pre_setxattr, soid.oid.name.c_str(), soid.snap.val, "???");
+	  result = -EFBIG;
+	  break;
+	}
+	unsigned max_name_len =
+	  std::min<uint64_t>(osd->store->get_max_attr_name_length(),
+			     cct->_conf->osd_max_attr_name_len);
+	if (op.xattr.name_len > max_name_len) {
+	  result = -ENAMETOOLONG;
+	  break;
+	}
+	maybe_create_new_object(ctx);
+	string aname;
+	bp.copy(op.xattr.name_len, aname);
+	tracepoint(osd, do_osd_op_pre_setxattr, soid.oid.name.c_str(), soid.snap.val, aname.c_str());
+	string name = "_" + aname;
+	bufferlist bl;
+	bp.copy(op.xattr.value_len, bl);
+	t->setattr(soid, name, bl);
+ 	ctx->delta_stats.num_wr++;
+      }
+      break;
+
+    case CEPH_OSD_OP_RMXATTR:
+      ++ctx->num_write;
+      result = 0;
+      {
+	string aname;
+	bp.copy(op.xattr.name_len, aname);
+	tracepoint(osd, do_osd_op_pre_rmxattr, soid.oid.name.c_str(), soid.snap.val, aname.c_str());
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  break;
+	}
+	string name = "_" + aname;
+	t->rmattr(soid, name);
+ 	ctx->delta_stats.num_wr++;
+      }
+      break;
+
+
+      // -- fancy writers --
+    case CEPH_OSD_OP_APPEND:
+      {
+	tracepoint(osd, do_osd_op_pre_append, soid.oid.name.c_str(), soid.snap.val, oi.size, oi.truncate_seq, op.extent.offset, op.extent.length, op.extent.truncate_size, op.extent.truncate_seq);
+	// just do it inline; this works because we are happy to execute
+	// fancy op on replicas as well.
+	vector<OSDOp> nops(1);
+	OSDOp& newop = nops[0];
+	newop.op.op = CEPH_OSD_OP_WRITE;
+	newop.op.extent.offset = oi.size;
+	newop.op.extent.length = op.extent.length;
+	newop.op.extent.truncate_seq = oi.truncate_seq;
+        newop.indata = osd_op.indata;
+	result = do_osd_ops(ctx, nops);
+	osd_op.outdata = std::move(newop.outdata);
+      }
+      break;
+
+    case CEPH_OSD_OP_STARTSYNC:
+      result = 0;
+      t->nop(soid);
+      break;
+
+      // -- trivial map --
+    case CEPH_OSD_OP_TMAPGET:
+      tracepoint(osd, do_osd_op_pre_tmapget, soid.oid.name.c_str(), soid.snap.val);
+      if (pool.info.is_erasure()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      {
+	vector<OSDOp> nops(1);
+	OSDOp& newop = nops[0];
+	newop.op.op = CEPH_OSD_OP_SYNC_READ;
+	newop.op.extent.offset = 0;
+	newop.op.extent.length = 0;
+	result = do_osd_ops(ctx, nops);
+	osd_op.outdata = std::move(newop.outdata);
+      }
+      break;
+
+    case CEPH_OSD_OP_TMAPPUT:
+      tracepoint(osd, do_osd_op_pre_tmapput, soid.oid.name.c_str(), soid.snap.val);
+      if (pool.info.is_erasure()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      {
+	//_dout_lock.Lock();
+	//osd_op.data.hexdump(*_dout);
+	//_dout_lock.Unlock();
+
+	// verify sort order
+	bool unsorted = false;
+	if (true) {
+	  bufferlist header;
+	  decode(header, bp);
+	  uint32_t n;
+	  decode(n, bp);
+	  string last_key;
+	  while (n--) {
+	    string key;
+	    decode(key, bp);
+	    dout(10) << "tmapput key " << key << dendl;
+	    bufferlist val;
+	    decode(val, bp);
+	    if (key < last_key) {
+	      dout(10) << "TMAPPUT is unordered; resorting" << dendl;
+	      unsorted = true;
+	      break;
+	    }
+	    last_key = key;
+	  }
+	}
+
+	// write it
+	vector<OSDOp> nops(1);
+	OSDOp& newop = nops[0];
+	newop.op.op = CEPH_OSD_OP_WRITEFULL;
+	newop.op.extent.offset = 0;
+	newop.op.extent.length = osd_op.indata.length();
+	newop.indata = osd_op.indata;
+
+	if (unsorted) {
+	  bp = osd_op.indata.begin();
+	  bufferlist header;
+	  map<string, bufferlist> m;
+	  decode(header, bp);
+	  decode(m, bp);
+	  ceph_assert(bp.end());
+	  bufferlist newbl;
+	  encode(header, newbl);
+	  encode(m, newbl);
+	  newop.indata = newbl;
+	}
+	result = do_osd_ops(ctx, nops);
+	ceph_assert(result == 0);
+      }
+      break;
+
+    case CEPH_OSD_OP_TMAPUP:
+      tracepoint(osd, do_osd_op_pre_tmapup, soid.oid.name.c_str(), soid.snap.val);
+      if (pool.info.is_erasure()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_write;
+      result = do_tmapup(ctx, bp, osd_op);
+      break;
+
+    case CEPH_OSD_OP_TMAP2OMAP:
+      ++ctx->num_write;
+      tracepoint(osd, do_osd_op_pre_tmap2omap, soid.oid.name.c_str(), soid.snap.val);
+      result = do_tmap2omap(ctx, op.tmap2omap.flags);
+      break;
+
+      // OMAP Read ops
+    case CEPH_OSD_OP_OMAPGETKEYS:
+      ++ctx->num_read;
+      {
+	string start_after;
+	uint64_t max_return;
+	try {
+	  decode(start_after, bp);
+	  decode(max_return, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_omapgetkeys, soid.oid.name.c_str(), soid.snap.val, "???", 0);
+	  goto fail;
+	}
+	if (max_return > cct->_conf->osd_max_omap_entries_per_request) {
+	  max_return = cct->_conf->osd_max_omap_entries_per_request;
+	}
+	tracepoint(osd, do_osd_op_pre_omapgetkeys, soid.oid.name.c_str(), soid.snap.val, start_after.c_str(), max_return);
+
+	bufferlist bl;
+	uint32_t num = 0;
+	bool truncated = false;
+	if (oi.is_omap()) {
+	  ObjectMap::ObjectMapIterator iter = osd->store->get_omap_iterator(
+	    ch, ghobject_t(soid)
+	    );
+	  ceph_assert(iter);
+	  iter->upper_bound(start_after);
+	  for (num = 0; iter->valid(); ++num, iter->next()) {
+	    if (num >= max_return ||
+		bl.length() >= cct->_conf->osd_max_omap_bytes_per_request) {
+	      truncated = true;
+	      break;
+	    }
+	    encode(iter->key(), bl);
+	  }
+	} // else return empty out_set
+	encode(num, osd_op.outdata);
+	osd_op.outdata.claim_append(bl);
+	encode(truncated, osd_op.outdata);
+	ctx->delta_stats.num_rd_kb += shift_round_up(osd_op.outdata.length(), 10);
+	ctx->delta_stats.num_rd++;
+      }
+      break;
+
+    case CEPH_OSD_OP_OMAPGETVALS:
+      ++ctx->num_read;
+      {
+	string start_after;
+	uint64_t max_return;
+	string filter_prefix;
+	try {
+	  decode(start_after, bp);
+	  decode(max_return, bp);
+	  decode(filter_prefix, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_omapgetvals, soid.oid.name.c_str(), soid.snap.val, "???", 0, "???");
+	  goto fail;
+	}
+	if (max_return > cct->_conf->osd_max_omap_entries_per_request) {
+	  max_return = cct->_conf->osd_max_omap_entries_per_request;
+	}
+	tracepoint(osd, do_osd_op_pre_omapgetvals, soid.oid.name.c_str(), soid.snap.val, start_after.c_str(), max_return, filter_prefix.c_str());
+
+	uint32_t num = 0;
+	bool truncated = false;
+	bufferlist bl;
+	if (oi.is_omap()) {
+	  ObjectMap::ObjectMapIterator iter = osd->store->get_omap_iterator(
+	    ch, ghobject_t(soid)
+	    );
+          if (!iter) {
+            result = -ENOENT;
+            goto fail;
+          }
+	  iter->upper_bound(start_after);
+	  if (filter_prefix > start_after) iter->lower_bound(filter_prefix);
+	  for (num = 0;
+	       iter->valid() &&
+		 iter->key().substr(0, filter_prefix.size()) == filter_prefix;
+	       ++num, iter->next()) {
+	    dout(20) << "Found key " << iter->key() << dendl;
+	    if (num >= max_return ||
+		bl.length() >= cct->_conf->osd_max_omap_bytes_per_request) {
+	      truncated = true;
+	      break;
+	    }
+	    encode(iter->key(), bl);
+	    encode(iter->value(), bl);
+	  }
+	} // else return empty out_set
+	encode(num, osd_op.outdata);
+	osd_op.outdata.claim_append(bl);
+	encode(truncated, osd_op.outdata);
+	ctx->delta_stats.num_rd_kb += shift_round_up(osd_op.outdata.length(), 10);
+	ctx->delta_stats.num_rd++;
+      }
+      break;
+
+    case CEPH_OSD_OP_OMAPGETHEADER:
+      tracepoint(osd, do_osd_op_pre_omapgetheader, soid.oid.name.c_str(), soid.snap.val);
+      if (!oi.is_omap()) {
+	// return empty header
+	break;
+      }
+      ++ctx->num_read;
+      {
+	osd->store->omap_get_header(ch, ghobject_t(soid), &osd_op.outdata);
+	ctx->delta_stats.num_rd_kb += shift_round_up(osd_op.outdata.length(), 10);
+	ctx->delta_stats.num_rd++;
+      }
+      break;
+
+    case CEPH_OSD_OP_OMAPGETVALSBYKEYS:
+      ++ctx->num_read;
+      {
+	set<string> keys_to_get;
+	try {
+	  decode(keys_to_get, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_omapgetvalsbykeys, soid.oid.name.c_str(), soid.snap.val, "???");
+	  goto fail;
+	}
+	tracepoint(osd, do_osd_op_pre_omapgetvalsbykeys, soid.oid.name.c_str(), soid.snap.val, list_entries(keys_to_get).c_str());
+	map<string, bufferlist> out;
+	if (oi.is_omap()) {
+	  osd->store->omap_get_values(ch, ghobject_t(soid), keys_to_get, &out);
+	} // else return empty omap entries
+	encode(out, osd_op.outdata);
+	ctx->delta_stats.num_rd_kb += shift_round_up(osd_op.outdata.length(), 10);
+	ctx->delta_stats.num_rd++;
+      }
+      break;
+
+    case CEPH_OSD_OP_OMAP_CMP:
+      ++ctx->num_read;
+      {
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  tracepoint(osd, do_osd_op_pre_omap_cmp, soid.oid.name.c_str(), soid.snap.val, "???");
+	  break;
+	}
+	map<string, pair<bufferlist, int> > assertions;
+	try {
+	  decode(assertions, bp);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_omap_cmp, soid.oid.name.c_str(), soid.snap.val, "???");
+	  goto fail;
+	}
+	tracepoint(osd, do_osd_op_pre_omap_cmp, soid.oid.name.c_str(), soid.snap.val, list_keys(assertions).c_str());
+
+	map<string, bufferlist> out;
+
+	if (oi.is_omap()) {
+	  set<string> to_get;
+	  for (map<string, pair<bufferlist, int> >::iterator i = assertions.begin();
+	       i != assertions.end();
+	       ++i)
+	    to_get.insert(i->first);
+	  int r = osd->store->omap_get_values(ch, ghobject_t(soid),
+					      to_get, &out);
+	  if (r < 0) {
+	    result = r;
+	    break;
+	  }
+	} // else leave out empty
+
+	//Should set num_rd_kb based on encode length of map
+	ctx->delta_stats.num_rd++;
+
+	int r = 0;
+	bufferlist empty;
+	for (map<string, pair<bufferlist, int> >::iterator i = assertions.begin();
+	     i != assertions.end();
+	     ++i) {
+	  auto out_entry = out.find(i->first);
+	  bufferlist &bl = (out_entry != out.end()) ?
+	    out_entry->second : empty;
+	  switch (i->second.second) {
+	  case CEPH_OSD_CMPXATTR_OP_EQ:
+	    if (!(bl == i->second.first)) {
+	      r = -ECANCELED;
+	    }
+	    break;
+	  case CEPH_OSD_CMPXATTR_OP_LT:
+	    if (!(bl < i->second.first)) {
+	      r = -ECANCELED;
+	    }
+	    break;
+	  case CEPH_OSD_CMPXATTR_OP_GT:
+	    if (!(bl > i->second.first)) {
+	      r = -ECANCELED;
+	    }
+	    break;
+	  default:
+	    r = -EINVAL;
+	    break;
+	  }
+	  if (r < 0)
+	    break;
+	}
+	if (r < 0) {
+	  result = r;
+	}
+      }
+      break;
+
+      // OMAP Write ops
+    case CEPH_OSD_OP_OMAPSETVALS:
+      if (!pool.info.supports_omap()) {
+	result = -EOPNOTSUPP;
+	tracepoint(osd, do_osd_op_pre_omapsetvals, soid.oid.name.c_str(), soid.snap.val);
+	break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	maybe_create_new_object(ctx);
+	bufferlist to_set_bl;
+	try {
+	  decode_str_str_map_to_bl(bp, &to_set_bl);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_omapsetvals, soid.oid.name.c_str(), soid.snap.val);
+	  goto fail;
+	}
+	tracepoint(osd, do_osd_op_pre_omapsetvals, soid.oid.name.c_str(), soid.snap.val);
+	if (cct->_conf->subsys.should_gather<dout_subsys, 20>()) {
+	  dout(20) << "setting vals: " << dendl;
+	  map<string,bufferlist> to_set;
+	  bufferlist::const_iterator pt = to_set_bl.begin();
+	  decode(to_set, pt);
+	  for (map<string, bufferlist>::iterator i = to_set.begin();
+	       i != to_set.end();
+	       ++i) {
+	    dout(20) << "\t" << i->first << dendl;
+	  }
+	}
+	t->omap_setkeys(soid, to_set_bl);
+	ctx->clean_regions.mark_omap_dirty();
+	ctx->delta_stats.num_wr++;
+        ctx->delta_stats.num_wr_kb += shift_round_up(to_set_bl.length(), 10);
+      }
+      obs.oi.set_flag(object_info_t::FLAG_OMAP);
+      obs.oi.clear_omap_digest();
+      break;
+
+    case CEPH_OSD_OP_OMAPSETHEADER:
+      tracepoint(osd, do_osd_op_pre_omapsetheader, soid.oid.name.c_str(), soid.snap.val);
+      if (!pool.info.supports_omap()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	maybe_create_new_object(ctx);
+	t->omap_setheader(soid, osd_op.indata);
+	ctx->clean_regions.mark_omap_dirty();
+	ctx->delta_stats.num_wr++;
+      }
+      obs.oi.set_flag(object_info_t::FLAG_OMAP);
+      obs.oi.clear_omap_digest();
+      break;
+
+    case CEPH_OSD_OP_OMAPCLEAR:
+      tracepoint(osd, do_osd_op_pre_omapclear, soid.oid.name.c_str(), soid.snap.val);
+      if (!pool.info.supports_omap()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  break;
+	}
+	if (oi.is_omap()) {
+	  t->omap_clear(soid);
+	  ctx->clean_regions.mark_omap_dirty();
+	  ctx->delta_stats.num_wr++;
+	  obs.oi.clear_omap_digest();
+	  obs.oi.clear_flag(object_info_t::FLAG_OMAP);
+	}
+      }
+      break;
+
+    case CEPH_OSD_OP_OMAPRMKEYS:
+      if (!pool.info.supports_omap()) {
+	result = -EOPNOTSUPP;
+	tracepoint(osd, do_osd_op_pre_omaprmkeys, soid.oid.name.c_str(), soid.snap.val);
+	break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  tracepoint(osd, do_osd_op_pre_omaprmkeys, soid.oid.name.c_str(), soid.snap.val);
+	  break;
+	}
+	bufferlist to_rm_bl;
+	try {
+	  decode_str_set_to_bl(bp, &to_rm_bl);
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd, do_osd_op_pre_omaprmkeys, soid.oid.name.c_str(), soid.snap.val);
+	  goto fail;
+	}
+	tracepoint(osd, do_osd_op_pre_omaprmkeys, soid.oid.name.c_str(), soid.snap.val);
+	t->omap_rmkeys(soid, to_rm_bl);
+	ctx->clean_regions.mark_omap_dirty();
+	ctx->delta_stats.num_wr++;
+      }
+      obs.oi.clear_omap_digest();
+      break;
+
+    case CEPH_OSD_OP_OMAPRMKEYRANGE:
+      tracepoint(osd, do_osd_op_pre_omaprmkeyrange, soid.oid.name.c_str(), soid.snap.val);
+      if (!pool.info.supports_omap()) {
+	result = -EOPNOTSUPP;
+	break;
+      }
+      ++ctx->num_write;
+      result = 0;
+      {
+	if (!obs.exists || oi.is_whiteout()) {
+	  result = -ENOENT;
+	  break;
+	}
+	std::string key_begin, key_end;
+	try {
+	  decode(key_begin, bp);
+	  decode(key_end, bp);
+	} catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  goto fail;
+	}
+	t->omap_rmkeyrange(soid, key_begin, key_end);
+        ctx->clean_regions.mark_omap_dirty();
+	ctx->delta_stats.num_wr++;
+      }
+      obs.oi.clear_omap_digest();
+      break;
+
+    case CEPH_OSD_OP_COPY_GET:
+      ++ctx->num_read;
+      tracepoint(osd, do_osd_op_pre_copy_get, soid.oid.name.c_str(),
+		 soid.snap.val);
+      if (op_finisher == nullptr) {
+	result = do_copy_get(ctx, bp, osd_op, ctx->obc);
+      } else {
+	result = op_finisher->execute();
+      }
+      break;
+
+    case CEPH_OSD_OP_COPY_FROM:
+    case CEPH_OSD_OP_COPY_FROM2:
+      ++ctx->num_write;
+      result = 0;
+      {
+	object_t src_name;
+	object_locator_t src_oloc;
+	uint32_t truncate_seq = 0;
+	uint64_t truncate_size = 0;
+	bool have_truncate = false;
+	snapid_t src_snapid = (uint64_t)op.copy_from.snapid;
+	version_t src_version = op.copy_from.src_version;
+
+	if ((op.op == CEPH_OSD_OP_COPY_FROM2) &&
+	    (op.copy_from.flags & ~CEPH_OSD_COPY_FROM_FLAGS)) {
+	  dout(20) << "invalid copy-from2 flags 0x"
+		  << std::hex << (int)op.copy_from.flags << std::dec << dendl;
+	  result = -EINVAL;
+	  break;
+	}
+	try {
+	  decode(src_name, bp);
+	  decode(src_oloc, bp);
+	  // check if client sent us truncate_seq and truncate_size
+	  if ((op.op == CEPH_OSD_OP_COPY_FROM2) &&
+	      (op.copy_from.flags & CEPH_OSD_COPY_FROM_FLAG_TRUNCATE_SEQ)) {
+	    decode(truncate_seq, bp);
+	    decode(truncate_size, bp);
+	    have_truncate = true;
+	  }
+	}
+	catch (ceph::buffer::error& e) {
+	  result = -EINVAL;
+	  tracepoint(osd,
+		     do_osd_op_pre_copy_from,
+		     soid.oid.name.c_str(),
+		     soid.snap.val,
+		     "???",
+		     0,
+		     "???",
+		     "???",
+		     0,
+		     src_snapid,
+		     src_version);
+	  goto fail;
+	}
+	tracepoint(osd,
+		   do_osd_op_pre_copy_from,
+		   soid.oid.name.c_str(),
+		   soid.snap.val,
+		   src_name.name.c_str(),
+		   src_oloc.pool,
+		   src_oloc.key.c_str(),
+		   src_oloc.nspace.c_str(),
+		   src_oloc.hash,
+		   src_snapid,
+		   src_version);
+	if (op_finisher == nullptr) {
+	  // start
+	  pg_t raw_pg;
+	  get_osdmap()->object_locator_to_pg(src_name, src_oloc, raw_pg);
+	  hobject_t src(src_name, src_oloc.key, src_snapid,
+			raw_pg.ps(), raw_pg.pool(),
+			src_oloc.nspace);
+	  if (src == soid) {
+	    dout(20) << " copy from self is invalid" << dendl;
+	    result = -EINVAL;
+	    break;
+	  }
+	  CopyFromCallback *cb = new CopyFromCallback(ctx, osd_op);
+	  if (have_truncate)
+	    cb->set_truncate(truncate_seq, truncate_size);
+          ctx->op_finishers[ctx->current_osd_subop_num].reset(
+            new CopyFromFinisher(cb));
+	  start_copy(cb, ctx->obc, src, src_oloc, src_version,
+		     op.copy_from.flags,
+		     false,
+		     op.copy_from.src_fadvise_flags,
+		     op.flags);
+	  result = -EINPROGRESS;
+	} else {
+	  // finish
+	  result = op_finisher->execute();
+	  ceph_assert(result == 0);
+
+          // COPY_FROM cannot be executed multiple times -- it must restart
+          ctx->op_finishers.erase(ctx->current_osd_subop_num);
+	}
+      }
+      break;
+
+    default:
+      tracepoint(osd, do_osd_op_pre_unknown, soid.oid.name.c_str(), soid.snap.val, op.op, ceph_osd_op_name(op.op));
+      dout(1) << "unrecognized osd op " << op.op
+	      << " " << ceph_osd_op_name(op.op)
+	      << dendl;
+      result = -EOPNOTSUPP;
+    }
+
+  fail:
+    osd_op.rval = result;
+    tracepoint(osd, do_osd_op_post, soid.oid.name.c_str(), soid.snap.val, op.op, ceph_osd_op_name(op.op), op.flags, result);
+    if (result < 0 && (op.flags & CEPH_OSD_OP_FLAG_FAILOK) &&
+        result != -EAGAIN && result != -EINPROGRESS)
+      result = 0;
+
+    if (result < 0)
+      break;
+  }
+  if (result < 0) {
+    dout(10) << __func__ << " error: " << cpp_strerror(result) << dendl;
+  }
+  return result;
+}
+
+int PrimaryLogPG::_get_tmap(OpContext *ctx, bufferlist *header, bufferlist *vals)
+{
+  if (ctx->new_obs.oi.size == 0) {
+    dout(20) << "unable to get tmap for zero sized " << ctx->new_obs.oi.soid << dendl;
+    return -ENODATA;
+  }
+  vector<OSDOp> nops(1);
+  OSDOp &newop = nops[0];
+  newop.op.op = CEPH_OSD_OP_TMAPGET;
+  do_osd_ops(ctx, nops);
+  try {
+    bufferlist::const_iterator i = newop.outdata.begin();
+    decode(*header, i);
+    (*vals).substr_of(newop.outdata, i.get_off(), i.get_remaining());
+  } catch (...) {
+    dout(20) << "unsuccessful at decoding tmap for " << ctx->new_obs.oi.soid
+	     << dendl;
+    return -EINVAL;
+  }
+  dout(20) << "successful at decoding tmap for " << ctx->new_obs.oi.soid
+	   << dendl;
+  return 0;
+}
+
+int PrimaryLogPG::_verify_no_head_clones(const hobject_t& soid,
+					const SnapSet& ss)
+{
+  // verify that all clones have been evicted
+  dout(20) << __func__ << " verifying clones are absent "
+	   << ss << dendl;
+  for (vector<snapid_t>::const_iterator p = ss.clones.begin();
+       p != ss.clones.end();
+       ++p) {
+    hobject_t clone_oid = soid;
+    clone_oid.snap = *p;
+    if (is_missing_object(clone_oid))
+      return -EBUSY;
+    ObjectContextRef clone_obc = get_object_context(clone_oid, false);
+    if (clone_obc && clone_obc->obs.exists) {
+      dout(10) << __func__ << " cannot evict head before clone "
+	       << clone_oid << dendl;
+      return -EBUSY;
+    }
+    if (copy_ops.count(clone_oid)) {
+      dout(10) << __func__ << " cannot evict head, pending promote on clone "
+	       << clone_oid << dendl;
+      return -EBUSY;
+    }
+  }
+  return 0;
+}
+
+inline int PrimaryLogPG::_delete_oid(
+  OpContext *ctx,
+  bool no_whiteout,     // no whiteouts, no matter what.
+  bool try_no_whiteout) // try not to whiteout
+{
+  SnapSet& snapset = ctx->new_snapset;
+  ObjectState& obs = ctx->new_obs;
+  object_info_t& oi = obs.oi;
+  const hobject_t& soid = oi.soid;
+  PGTransaction* t = ctx->op_t.get();
+
+  // cache: cache: set whiteout on delete?
+  bool whiteout = false;
+  if (pool.info.cache_mode != pg_pool_t::CACHEMODE_NONE
+      && !no_whiteout
+      && !try_no_whiteout) {
+    whiteout = true;
+  }
+
+  // in luminous or later, we can't delete the head if there are
+  // clones. we trust the caller passing no_whiteout has already
+  // verified they don't exist.
+  if (!snapset.clones.empty() ||
+      (!ctx->snapc.snaps.empty() && ctx->snapc.snaps[0] > snapset.seq)) {
+    if (no_whiteout) {
+      dout(20) << __func__ << " has or will have clones but no_whiteout=1"
+	       << dendl;
+    } else {
+      dout(20) << __func__ << " has or will have clones; will whiteout"
+	       << dendl;
+      whiteout = true;
+    }
+  }
+  dout(20) << __func__ << " " << soid << " whiteout=" << (int)whiteout
+	   << " no_whiteout=" << (int)no_whiteout
+	   << " try_no_whiteout=" << (int)try_no_whiteout
+	   << dendl;
+  if (!obs.exists || (obs.oi.is_whiteout() && whiteout))
+    return -ENOENT;
+
+  t->remove(soid);
+
+  if (oi.size > 0) {
+    interval_set<uint64_t> ch;
+    ch.insert(0, oi.size);
+    ctx->modified_ranges.union_of(ch);
+    ctx->clean_regions.mark_data_region_dirty(0, oi.size);
+  }
+
+  ctx->clean_regions.mark_omap_dirty();
+  ctx->delta_stats.num_wr++;
+  if (soid.is_snap()) {
+    ceph_assert(ctx->obc->ssc->snapset.clone_overlap.count(soid.snap));
+    ctx->delta_stats.num_bytes -= ctx->obc->ssc->snapset.get_clone_bytes(soid.snap);
+  } else {
+    ctx->delta_stats.num_bytes -= oi.size;
+  }
+  oi.size = 0;
+  oi.new_object();
+
+  // disconnect all watchers
+  for (map<pair<uint64_t, entity_name_t>, watch_info_t>::iterator p =
+	 oi.watchers.begin();
+       p != oi.watchers.end();
+       ++p) {
+    dout(20) << __func__ << " will disconnect watcher " << p->first << dendl;
+    ctx->watch_disconnects.push_back(
+      watch_disconnect_t(p->first.first, p->first.second, true));
+  }
+  oi.watchers.clear();
+
+  if (oi.has_manifest()) {
+    ctx->delta_stats.num_objects_manifest--;
+    dec_all_refcount_manifest(oi, ctx);
+  }
+
+  if (whiteout) {
+    dout(20) << __func__ << " setting whiteout on " << soid << dendl;
+    oi.set_flag(object_info_t::FLAG_WHITEOUT);
+    ctx->delta_stats.num_whiteouts++;
+    t->create(soid);
+    osd->logger->inc(l_osd_tier_whiteout);
+    return 0;
+  }
+
+  // delete the head
+  ctx->delta_stats.num_objects--;
+  if (soid.is_snap())
+    ctx->delta_stats.num_object_clones--;
+  if (oi.is_whiteout()) {
+    dout(20) << __func__ << " deleting whiteout on " << soid << dendl;
+    ctx->delta_stats.num_whiteouts--;
+    oi.clear_flag(object_info_t::FLAG_WHITEOUT);
+  }
+  if (oi.is_cache_pinned()) {
+    ctx->delta_stats.num_objects_pinned--;
+  }
+  obs.exists = false;
+  return 0;
+}
+
+int PrimaryLogPG::_rollback_to(OpContext *ctx, ceph_osd_op& op)
+{
+  SnapSet& snapset = ctx->new_snapset;
+  ObjectState& obs = ctx->new_obs;
+  object_info_t& oi = obs.oi;
+  const hobject_t& soid = oi.soid;
+  PGTransaction* t = ctx->op_t.get();
+  snapid_t snapid = (uint64_t)op.snap.snapid;
+  hobject_t missing_oid;
+
+  dout(10) << "_rollback_to " << soid << " snapid " << snapid << dendl;
+
+  ObjectContextRef rollback_to;
+
+  int ret = find_object_context(
+    hobject_t(soid.oid, soid.get_key(), snapid, soid.get_hash(), info.pgid.pool(),
+	      soid.get_namespace()),
+    &rollback_to, false, false, &missing_oid);
+  if (ret == -EAGAIN) {
+    /* clone must be missing */
+    ceph_assert(is_degraded_or_backfilling_object(missing_oid) || is_degraded_on_async_recovery_target(missing_oid));
+    dout(20) << "_rollback_to attempted to roll back to a missing or backfilling clone "
+	     << missing_oid << " (requested snapid: ) " << snapid << dendl;
+    block_write_on_degraded_snap(missing_oid, ctx->op);
+    return ret;
+  }
+  {
+    ObjectContextRef promote_obc;
+    cache_result_t tier_mode_result;
+    if (obs.exists && obs.oi.has_manifest()) {
+      tier_mode_result =
+	maybe_handle_manifest_detail(
+	  ctx->op,
+	  true,
+	  rollback_to);
+    } else {
+      tier_mode_result =
+	maybe_handle_cache_detail(
+	  ctx->op,
+	  true,
+	  rollback_to,
+	  ret,
+	  missing_oid,
+	  true,
+	  false,
+	  &promote_obc);
+    }
+    switch (tier_mode_result) {
+    case cache_result_t::NOOP:
+      break;
+    case cache_result_t::BLOCKED_PROMOTE:
+      ceph_assert(promote_obc);
+      block_write_on_snap_rollback(soid, promote_obc, ctx->op);
+      return -EAGAIN;
+    case cache_result_t::BLOCKED_FULL:
+      block_write_on_full_cache(soid, ctx->op);
+      return -EAGAIN;
+    case cache_result_t::REPLIED_WITH_EAGAIN:
+      ceph_abort_msg("this can't happen, no rollback on replica");
+    default:
+      ceph_abort_msg("must promote was set, other values are not valid");
+      return -EAGAIN;
+    }
+  }
+
+  if (ret == -ENOENT || (rollback_to && rollback_to->obs.oi.is_whiteout())) {
+    // there's no snapshot here, or there's no object.
+    // if there's no snapshot, we delete the object; otherwise, do nothing.
+    dout(20) << "_rollback_to deleting head on " << soid.oid
+	     << " because got ENOENT|whiteout on find_object_context" << dendl;
+    if (ctx->obc->obs.oi.watchers.size()) {
+      // Cannot delete an object with watchers
+      ret = -EBUSY;
+    } else {
+      _delete_oid(ctx, false, false);
+      ret = 0;
+    }
+  } else if (ret) {
+    // ummm....huh? It *can't* return anything else at time of writing.
+    ceph_abort_msg("unexpected error code in _rollback_to");
+  } else { //we got our context, let's use it to do the rollback!
+    hobject_t& rollback_to_sobject = rollback_to->obs.oi.soid;
+    if (is_degraded_or_backfilling_object(rollback_to_sobject) ||
+	is_degraded_on_async_recovery_target(rollback_to_sobject)) {
+      dout(20) << "_rollback_to attempted to roll back to a degraded object "
+	       << rollback_to_sobject << " (requested snapid: ) " << snapid << dendl;
+      block_write_on_degraded_snap(rollback_to_sobject, ctx->op);
+      ret = -EAGAIN;
+    } else if (rollback_to->obs.oi.soid.snap == CEPH_NOSNAP) {
+      // rolling back to the head; we just need to clone it.
+      ctx->modify = true;
+    } else {
+      /* 1) Delete current head
+       * 2) Clone correct snapshot into head
+       * 3) Calculate clone_overlaps by following overlaps
+       *    forward from rollback snapshot */
+      dout(10) << "_rollback_to deleting " << soid.oid
+	       << " and rolling back to old snap" << dendl;
+
+      if (obs.exists) {
+	t->remove(soid);
+      }
+      t->clone(soid, rollback_to_sobject);
+      t->add_obc(rollback_to);
+
+      map<snapid_t, interval_set<uint64_t> >::iterator iter =
+	snapset.clone_overlap.lower_bound(snapid);
+      ceph_assert(iter != snapset.clone_overlap.end());
+      interval_set<uint64_t> overlaps = iter->second;
+      for ( ;
+	    iter != snapset.clone_overlap.end();
+	    ++iter)
+	overlaps.intersection_of(iter->second);
+
+      if (obs.oi.size > 0) {
+	interval_set<uint64_t> modified;
+	modified.insert(0, obs.oi.size);
+	overlaps.intersection_of(modified);
+	modified.subtract(overlaps);
+	ctx->modified_ranges.union_of(modified);
+      }
+
+      // Adjust the cached objectcontext
+      maybe_create_new_object(ctx, true);
+      ctx->delta_stats.num_bytes -= obs.oi.size;
+      ctx->delta_stats.num_bytes += rollback_to->obs.oi.size;
+      ctx->clean_regions.mark_data_region_dirty(0, std::max(obs.oi.size, rollback_to->obs.oi.size));
+      ctx->clean_regions.mark_omap_dirty();
+      obs.oi.size = rollback_to->obs.oi.size;
+      if (rollback_to->obs.oi.is_data_digest())
+	obs.oi.set_data_digest(rollback_to->obs.oi.data_digest);
+      else
+	obs.oi.clear_data_digest();
+      if (rollback_to->obs.oi.is_omap_digest())
+	obs.oi.set_omap_digest(rollback_to->obs.oi.omap_digest);
+      else
+	obs.oi.clear_omap_digest();
+
+      if (rollback_to->obs.oi.is_omap()) {
+	dout(10) << __func__ << " setting omap flag on " << obs.oi.soid << dendl;
+	obs.oi.set_flag(object_info_t::FLAG_OMAP);
+      } else {
+	dout(10) << __func__ << " clearing omap flag on " << obs.oi.soid << dendl;
+	obs.oi.clear_flag(object_info_t::FLAG_OMAP);
+      }
+    }
+  }
+  return ret;
+}
+
+void PrimaryLogPG::_make_clone(
+  OpContext *ctx,
+  PGTransaction* t,
+  ObjectContextRef obc,
+  const hobject_t& head, const hobject_t& coid,
+  object_info_t *poi)
+{
+  bufferlist bv;
+  encode(*poi, bv, get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+
+  t->clone(coid, head);
+  setattr_maybe_cache(obc, t, OI_ATTR, bv);
+  rmattr_maybe_cache(obc, t, SS_ATTR);
+}
+
+void PrimaryLogPG::make_writeable(OpContext *ctx)
+{
+  const hobject_t& soid = ctx->obs->oi.soid;
+  SnapContext& snapc = ctx->snapc;
+
+  // clone?
+  ceph_assert(soid.snap == CEPH_NOSNAP);
+  dout(20) << "make_writeable " << soid << " snapset=" << ctx->new_snapset
+	   << "  snapc=" << snapc << dendl;
+
+  bool was_dirty = ctx->obc->obs.oi.is_dirty();
+  if (ctx->new_obs.exists) {
+    // we will mark the object dirty
+    if (ctx->undirty && was_dirty) {
+      dout(20) << " clearing DIRTY flag" << dendl;
+      ceph_assert(ctx->new_obs.oi.is_dirty());
+      ctx->new_obs.oi.clear_flag(object_info_t::FLAG_DIRTY);
+      --ctx->delta_stats.num_objects_dirty;
+      osd->logger->inc(l_osd_tier_clean);
+    } else if (!was_dirty && !ctx->undirty) {
+      dout(20) << " setting DIRTY flag" << dendl;
+      ctx->new_obs.oi.set_flag(object_info_t::FLAG_DIRTY);
+      ++ctx->delta_stats.num_objects_dirty;
+      osd->logger->inc(l_osd_tier_dirty);
+    }
+  } else {
+    if (was_dirty) {
+      dout(20) << " deletion, decrementing num_dirty and clearing flag" << dendl;
+      ctx->new_obs.oi.clear_flag(object_info_t::FLAG_DIRTY);
+      --ctx->delta_stats.num_objects_dirty;
+    }
+  }
+
+  if ((ctx->new_obs.exists &&
+       ctx->new_obs.oi.is_omap()) &&
+      (!ctx->obc->obs.exists ||
+       !ctx->obc->obs.oi.is_omap())) {
+    ++ctx->delta_stats.num_objects_omap;
+  }
+  if ((!ctx->new_obs.exists ||
+       !ctx->new_obs.oi.is_omap()) &&
+      (ctx->obc->obs.exists &&
+       ctx->obc->obs.oi.is_omap())) {
+    --ctx->delta_stats.num_objects_omap;
+  }
+
+  if (ctx->new_snapset.seq > snapc.seq) {
+    dout(10) << " op snapset is old" << dendl;
+  }
+
+  if ((ctx->obs->exists && !ctx->obs->oi.is_whiteout()) && // head exist(ed)
+      snapc.snaps.size() &&                 // there are snaps
+      !ctx->cache_operation &&
+      snapc.snaps[0] > ctx->new_snapset.seq) {  // existing object is old
+    // clone
+    hobject_t coid = soid;
+    coid.snap = snapc.seq;
+
+    unsigned l;
+    for (l = 1;
+	 l < snapc.snaps.size() && snapc.snaps[l] > ctx->new_snapset.seq;
+	 l++) ;
+
+    vector<snapid_t> snaps(l);
+    for (unsigned i=0; i<l; i++)
+      snaps[i] = snapc.snaps[i];
+
+    // prepare clone
+    object_info_t static_snap_oi(coid);
+    object_info_t *snap_oi;
+    if (is_primary()) {
+      ctx->clone_obc = object_contexts.lookup_or_create(static_snap_oi.soid);
+      ctx->clone_obc->destructor_callback =
+	new C_PG_ObjectContext(this, ctx->clone_obc.get());
+      ctx->clone_obc->obs.oi = static_snap_oi;
+      ctx->clone_obc->obs.exists = true;
+      ctx->clone_obc->ssc = ctx->obc->ssc;
+      ctx->clone_obc->ssc->ref++;
+      if (pool.info.is_erasure())
+	ctx->clone_obc->attr_cache = ctx->obc->attr_cache;
+      snap_oi = &ctx->clone_obc->obs.oi;
+      if (ctx->obc->obs.oi.has_manifest()) {
+	if ((ctx->obc->obs.oi.flags & object_info_t::FLAG_REDIRECT_HAS_REFERENCE) &&
+	    ctx->obc->obs.oi.manifest.is_redirect()) {
+	  snap_oi->set_flag(object_info_t::FLAG_MANIFEST);
+	  snap_oi->manifest.type = object_manifest_t::TYPE_REDIRECT;
+	  snap_oi->manifest.redirect_target = ctx->obc->obs.oi.manifest.redirect_target;
+	} else if (ctx->obc->obs.oi.manifest.is_chunked()) {
+	  snap_oi->set_flag(object_info_t::FLAG_MANIFEST);
+	  snap_oi->manifest.type = object_manifest_t::TYPE_CHUNKED;
+	  snap_oi->manifest.chunk_map = ctx->obc->obs.oi.manifest.chunk_map;
+	} else {
+	  ceph_abort_msg("unrecognized manifest type");
+	}
+      }
+      bool got = ctx->lock_manager.get_write_greedy(
+	coid,
+	ctx->clone_obc,
+	ctx->op);
+      ceph_assert(got);
+      dout(20) << " got greedy write on clone_obc " << *ctx->clone_obc << dendl;
+    } else {
+      snap_oi = &static_snap_oi;
+    }
+    snap_oi->version = ctx->at_version;
+    snap_oi->prior_version = ctx->obs->oi.version;
+    snap_oi->copy_user_bits(ctx->obs->oi);
+
+    _make_clone(ctx, ctx->op_t.get(), ctx->clone_obc, soid, coid, snap_oi);
+
+    ctx->delta_stats.num_objects++;
+    if (snap_oi->is_dirty()) {
+      ctx->delta_stats.num_objects_dirty++;
+      osd->logger->inc(l_osd_tier_dirty);
+    }
+    if (snap_oi->is_omap())
+      ctx->delta_stats.num_objects_omap++;
+    if (snap_oi->is_cache_pinned())
+      ctx->delta_stats.num_objects_pinned++;
+    if (snap_oi->has_manifest())
+      ctx->delta_stats.num_objects_manifest++;
+    ctx->delta_stats.num_object_clones++;
+    ctx->new_snapset.clones.push_back(coid.snap);
+    ctx->new_snapset.clone_size[coid.snap] = ctx->obs->oi.size;
+    ctx->new_snapset.clone_snaps[coid.snap] = snaps;
+
+    // clone_overlap should contain an entry for each clone
+    // (an empty interval_set if there is no overlap)
+    ctx->new_snapset.clone_overlap[coid.snap];
+    if (ctx->obs->oi.size)
+      ctx->new_snapset.clone_overlap[coid.snap].insert(0, ctx->obs->oi.size);
+
+    // log clone
+    dout(10) << " cloning v " << ctx->obs->oi.version
+	     << " to " << coid << " v " << ctx->at_version
+	     << " snaps=" << snaps
+	     << " snapset=" << ctx->new_snapset << dendl;
+    ctx->log.push_back(pg_log_entry_t(
+			 pg_log_entry_t::CLONE, coid, ctx->at_version,
+			 ctx->obs->oi.version,
+			 ctx->obs->oi.user_version,
+			 osd_reqid_t(), ctx->new_obs.oi.mtime, 0));
+    encode(snaps, ctx->log.back().snaps);
+
+    ctx->at_version.version++;
+  }
+
+  // update most recent clone_overlap and usage stats
+  if (ctx->new_snapset.clones.size() > 0) {
+    // the clone_overlap is difference of range between head and clones.
+    // we need to check whether the most recent clone exists, if it's
+    // been evicted, it's not included in the stats, but the clone_overlap
+    // is still exist in the snapset, so we should update the
+    // clone_overlap to make it sense.
+    hobject_t last_clone_oid = soid;
+    last_clone_oid.snap = ctx->new_snapset.clone_overlap.rbegin()->first;
+    interval_set<uint64_t> &newest_overlap =
+      ctx->new_snapset.clone_overlap.rbegin()->second;
+    ctx->modified_ranges.intersection_of(newest_overlap);
+    if (is_present_clone(last_clone_oid)) {
+      // modified_ranges is still in use by the clone
+      ctx->delta_stats.num_bytes += ctx->modified_ranges.size();
+    }
+    newest_overlap.subtract(ctx->modified_ranges);
+  }
+
+  if (snapc.seq > ctx->new_snapset.seq) {
+    // update snapset with latest snap context
+    ctx->new_snapset.seq = snapc.seq;
+    if (get_osdmap()->require_osd_release < ceph_release_t::octopus) {
+      ctx->new_snapset.snaps = snapc.snaps;
+    } else {
+      ctx->new_snapset.snaps.clear();
+    }
+  }
+  dout(20) << "make_writeable " << soid
+	   << " done, snapset=" << ctx->new_snapset << dendl;
+}
+
+
+void PrimaryLogPG::write_update_size_and_usage(object_stat_sum_t& delta_stats, object_info_t& oi,
+					       interval_set<uint64_t>& modified, uint64_t offset,
+					       uint64_t length, bool write_full)
+{
+  interval_set<uint64_t> ch;
+  if (write_full) {
+    if (oi.size)
+      ch.insert(0, oi.size);
+  } else if (length)
+    ch.insert(offset, length);
+  modified.union_of(ch);
+  if (write_full ||
+      (offset + length > oi.size && length)) {
+    uint64_t new_size = offset + length;
+    delta_stats.num_bytes -= oi.size;
+    delta_stats.num_bytes += new_size;
+    oi.size = new_size;
+  }
+
+  delta_stats.num_wr++;
+  delta_stats.num_wr_kb += shift_round_up(length, 10);
+}
+
+void PrimaryLogPG::truncate_update_size_and_usage(
+  object_stat_sum_t& delta_stats,
+  object_info_t& oi,
+  uint64_t truncate_size)
+{
+  if (oi.size != truncate_size) {
+    delta_stats.num_bytes -= oi.size;
+    delta_stats.num_bytes += truncate_size;
+    oi.size = truncate_size;
+  }
+}
+
+void PrimaryLogPG::complete_disconnect_watches(
+  ObjectContextRef obc,
+  const list<watch_disconnect_t> &to_disconnect)
+{
+  for (list<watch_disconnect_t>::const_iterator i =
+	 to_disconnect.begin();
+       i != to_disconnect.end();
+       ++i) {
+    pair<uint64_t, entity_name_t> watcher(i->cookie, i->name);
+    auto watchers_entry = obc->watchers.find(watcher);
+    if (watchers_entry != obc->watchers.end()) {
+      WatchRef watch = watchers_entry->second;
+      dout(10) << "do_osd_op_effects disconnect watcher " << watcher << dendl;
+      obc->watchers.erase(watcher);
+      watch->remove(i->send_disconnect);
+    } else {
+      dout(10) << "do_osd_op_effects disconnect failed to find watcher "
+	       << watcher << dendl;
+    }
+  }
+}
+
+void PrimaryLogPG::do_osd_op_effects(OpContext *ctx, const ConnectionRef& conn)
+{
+  entity_name_t entity = ctx->reqid.name;
+  dout(15) << "do_osd_op_effects " << entity << " con " << conn.get() << dendl;
+
+  // disconnects first
+  complete_disconnect_watches(ctx->obc, ctx->watch_disconnects);
+
+  ceph_assert(conn);
+
+  auto session = conn->get_priv();
+  if (!session)
+    return;
+
+  for (list<pair<watch_info_t,bool> >::iterator i = ctx->watch_connects.begin();
+       i != ctx->watch_connects.end();
+       ++i) {
+    pair<uint64_t, entity_name_t> watcher(i->first.cookie, entity);
+    dout(15) << "do_osd_op_effects applying watch connect on session "
+	     << session.get() << " watcher " << watcher << dendl;
+    WatchRef watch;
+    if (ctx->obc->watchers.count(watcher)) {
+      dout(15) << "do_osd_op_effects found existing watch watcher " << watcher
+	       << dendl;
+      watch = ctx->obc->watchers[watcher];
+    } else {
+      dout(15) << "do_osd_op_effects new watcher " << watcher
+	       << dendl;
+      watch = Watch::makeWatchRef(
+	this, osd, ctx->obc, i->first.timeout_seconds,
+	i->first.cookie, entity, conn->get_peer_addr());
+      ctx->obc->watchers.insert(
+	make_pair(
+	  watcher,
+	  watch));
+    }
+    watch->connect(conn, i->second);
+  }
+
+  for (list<notify_info_t>::iterator p = ctx->notifies.begin();
+       p != ctx->notifies.end();
+       ++p) {
+    dout(10) << "do_osd_op_effects, notify " << *p << dendl;
+    ConnectionRef conn(ctx->op->get_req()->get_connection());
+    NotifyRef notif(
+      Notify::makeNotifyRef(
+	conn,
+	ctx->reqid.name.num(),
+	p->bl,
+	p->timeout,
+	p->cookie,
+	p->notify_id,
+	ctx->obc->obs.oi.user_version,
+	osd));
+    for (map<pair<uint64_t, entity_name_t>, WatchRef>::iterator i =
+	   ctx->obc->watchers.begin();
+	 i != ctx->obc->watchers.end();
+	 ++i) {
+      dout(10) << "starting notify on watch " << i->first << dendl;
+      i->second->start_notify(notif);
+    }
+    notif->init();
+  }
+
+  for (list<OpContext::NotifyAck>::iterator p = ctx->notify_acks.begin();
+       p != ctx->notify_acks.end();
+       ++p) {
+    if (p->watch_cookie)
+      dout(10) << "notify_ack " << make_pair(*(p->watch_cookie), p->notify_id) << dendl;
+    else
+      dout(10) << "notify_ack " << make_pair("NULL", p->notify_id) << dendl;
+    for (map<pair<uint64_t, entity_name_t>, WatchRef>::iterator i =
+	   ctx->obc->watchers.begin();
+	 i != ctx->obc->watchers.end();
+	 ++i) {
+      if (i->first.second != entity) continue;
+      if (p->watch_cookie &&
+	  *(p->watch_cookie) != i->first.first) continue;
+      dout(10) << "acking notify on watch " << i->first << dendl;
+      i->second->notify_ack(p->notify_id, p->reply_bl);
+    }
+  }
+}
+
+hobject_t PrimaryLogPG::generate_temp_object(const hobject_t& target)
+{
+  ostringstream ss;
+  ss << "temp_" << info.pgid << "_" << get_role()
+     << "_" << osd->monc->get_global_id() << "_" << (++temp_seq);
+  hobject_t hoid = target.make_temp_hobject(ss.str());
+  dout(20) << __func__ << " " << hoid << dendl;
+  return hoid;
+}
+
+hobject_t PrimaryLogPG::get_temp_recovery_object(
+  const hobject_t& target,
+  eversion_t version)
+{
+  ostringstream ss;
+  ss << "temp_recovering_" << info.pgid  // (note this includes the shardid)
+     << "_" << version
+     << "_" << info.history.same_interval_since
+     << "_" << target.snap;
+  // pgid + version + interval + snapid is unique, and short
+  hobject_t hoid = target.make_temp_hobject(ss.str());
+  dout(20) << __func__ << " " << hoid << dendl;
+  return hoid;
+}
+
+int PrimaryLogPG::prepare_transaction(OpContext *ctx)
+{
+  ceph_assert(!ctx->ops->empty());
+
+  // valid snap context?
+  if (!ctx->snapc.is_valid()) {
+    dout(10) << " invalid snapc " << ctx->snapc << dendl;
+    return -EINVAL;
+  }
+
+  // prepare the actual mutation
+  int result = do_osd_ops(ctx, *ctx->ops);
+  if (result < 0) {
+    if (ctx->op->may_write() &&
+	get_osdmap()->require_osd_release >= ceph_release_t::kraken) {
+      // need to save the error code in the pg log, to detect dup ops,
+      // but do nothing else
+      ctx->update_log_only = true;
+    }
+    return result;
+  }
+
+  // read-op?  write-op noop? done?
+  if (ctx->op_t->empty() && !ctx->modify) {
+    if (ctx->pending_async_reads.empty())
+      unstable_stats.add(ctx->delta_stats);
+    if (ctx->op->may_write() &&
+	get_osdmap()->require_osd_release >= ceph_release_t::kraken) {
+      ctx->update_log_only = true;
+    }
+    return result;
+  }
+
+  // check for full
+  if ((ctx->delta_stats.num_bytes > 0 ||
+       ctx->delta_stats.num_objects > 0) &&  // FIXME: keys?
+      pool.info.has_flag(pg_pool_t::FLAG_FULL)) {
+    auto m = ctx->op->get_req<MOSDOp>();
+    if (ctx->reqid.name.is_mds() ||   // FIXME: ignore MDS for now
+	m->has_flag(CEPH_OSD_FLAG_FULL_FORCE)) {
+      dout(20) << __func__ << " full, but proceeding due to FULL_FORCE or MDS"
+	       << dendl;
+    } else if (m->has_flag(CEPH_OSD_FLAG_FULL_TRY)) {
+      // they tried, they failed.
+      dout(20) << __func__ << " full, replying to FULL_TRY op" << dendl;
+      return pool.info.has_flag(pg_pool_t::FLAG_FULL_QUOTA) ? -EDQUOT : -ENOSPC;
+    } else {
+      // drop request
+      dout(20) << __func__ << " full, dropping request (bad client)" << dendl;
+      return -EAGAIN;
+    }
+  }
+
+  const hobject_t& soid = ctx->obs->oi.soid;
+  // clone, if necessary
+  if (soid.snap == CEPH_NOSNAP)
+    make_writeable(ctx);
+
+  finish_ctx(ctx,
+	     ctx->new_obs.exists ? pg_log_entry_t::MODIFY :
+	     pg_log_entry_t::DELETE,
+	     result);
+
+  return result;
+}
+
+void PrimaryLogPG::finish_ctx(OpContext *ctx, int log_op_type, int result)
+{
+  const hobject_t& soid = ctx->obs->oi.soid;
+  dout(20) << __func__ << " " << soid << " " << ctx
+	   << " op " << pg_log_entry_t::get_op_name(log_op_type)
+	   << dendl;
+  utime_t now = ceph_clock_now();
+
+#ifdef HAVE_JAEGER
+  if (ctx->op->osd_parent_span) {
+    auto finish_ctx_span = jaeger_tracing::child_span(__func__, ctx->op->osd_parent_span);
+  }
+#endif
+  // Drop the reference if deduped chunk is modified
+  if (ctx->new_obs.oi.is_dirty() &&
+    (ctx->obs->oi.has_manifest() && ctx->obs->oi.manifest.is_chunked()) &&
+    // If a clone is creating, ignore dropping the reference for manifest object
+    !ctx->delta_stats.num_object_clones &&
+    ctx->new_obs.oi.size != 0 && // missing, redirect and delete
+    !ctx->cache_operation &&
+    log_op_type != pg_log_entry_t::PROMOTE) {
+    dec_refcount_by_dirty(ctx);
+  }
+
+  // finish and log the op.
+  if (ctx->user_modify) {
+    // update the user_version for any modify ops, except for the watch op
+    ctx->user_at_version = std::max(info.last_user_version, ctx->new_obs.oi.user_version) + 1;
+    /* In order for new clients and old clients to interoperate properly
+     * when exchanging versions, we need to lower bound the user_version
+     * (which our new clients pay proper attention to)
+     * by the at_version (which is all the old clients can ever see). */
+    if (ctx->at_version.version > ctx->user_at_version)
+      ctx->user_at_version = ctx->at_version.version;
+    ctx->new_obs.oi.user_version = ctx->user_at_version;
+  }
+  ctx->bytes_written = ctx->op_t->get_bytes_written();
+
+  if (ctx->new_obs.exists) {
+    ctx->new_obs.oi.version = ctx->at_version;
+    ctx->new_obs.oi.prior_version = ctx->obs->oi.version;
+    ctx->new_obs.oi.last_reqid = ctx->reqid;
+    if (ctx->mtime != utime_t()) {
+      ctx->new_obs.oi.mtime = ctx->mtime;
+      dout(10) << " set mtime to " << ctx->new_obs.oi.mtime << dendl;
+      ctx->new_obs.oi.local_mtime = now;
+    } else {
+      dout(10) << " mtime unchanged at " << ctx->new_obs.oi.mtime << dendl;
+    }
+
+    // object_info_t
+    map <string, bufferlist> attrs;
+    bufferlist bv(sizeof(ctx->new_obs.oi));
+    encode(ctx->new_obs.oi, bv,
+	     get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+    attrs[OI_ATTR] = std::move(bv);
+
+    // snapset
+    if (soid.snap == CEPH_NOSNAP) {
+      dout(10) << " final snapset " << ctx->new_snapset
+	       << " in " << soid << dendl;
+      bufferlist bss;
+      encode(ctx->new_snapset, bss);
+      attrs[SS_ATTR] = std::move(bss);
+    } else {
+      dout(10) << " no snapset (this is a clone)" << dendl;
+    }
+    ctx->op_t->setattrs(soid, attrs);
+  } else {
+    // reset cached oi
+    ctx->new_obs.oi = object_info_t(ctx->obc->obs.oi.soid);
+  }
+
+  // append to log
+  ctx->log.push_back(
+    pg_log_entry_t(log_op_type, soid, ctx->at_version,
+		   ctx->obs->oi.version,
+		   ctx->user_at_version, ctx->reqid,
+		   ctx->mtime,
+		   (ctx->op && ctx->op->allows_returnvec()) ? result : 0));
+  if (ctx->op && ctx->op->allows_returnvec()) {
+    // also the per-op values
+    ctx->log.back().set_op_returns(*ctx->ops);
+    dout(20) << __func__ << " op_returns " << ctx->log.back().op_returns
+	     << dendl;
+  }
+
+  ctx->log.back().clean_regions = ctx->clean_regions;
+  dout(20) << __func__ << " object " << soid <<  " marks clean_regions " << ctx->log.back().clean_regions << dendl;
+
+  if (soid.snap < CEPH_NOSNAP) {
+    switch (log_op_type) {
+    case pg_log_entry_t::MODIFY:
+    case pg_log_entry_t::PROMOTE:
+    case pg_log_entry_t::CLEAN:
+      dout(20) << __func__ << " encoding snaps from " << ctx->new_snapset
+	       << dendl;
+      encode(ctx->new_snapset.clone_snaps[soid.snap], ctx->log.back().snaps);
+      break;
+    default:
+      break;
+    }
+  }
+
+  if (!ctx->extra_reqids.empty()) {
+    dout(20) << __func__ << "  extra_reqids " << ctx->extra_reqids << " "
+             << ctx->extra_reqid_return_codes << dendl;
+    ctx->log.back().extra_reqids.swap(ctx->extra_reqids);
+    ctx->log.back().extra_reqid_return_codes.swap(ctx->extra_reqid_return_codes);
+  }
+
+  // apply new object state.
+  ctx->obc->obs = ctx->new_obs;
+
+  if (soid.is_head() && !ctx->obc->obs.exists) {
+    ctx->obc->ssc->exists = false;
+    ctx->obc->ssc->snapset = SnapSet();
+  } else {
+    ctx->obc->ssc->exists = true;
+    ctx->obc->ssc->snapset = ctx->new_snapset;
+  }
+}
+
+void PrimaryLogPG::apply_stats(
+  const hobject_t &soid,
+  const object_stat_sum_t &delta_stats) {
+
+  recovery_state.apply_op_stats(soid, delta_stats);
+  for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+       i != get_backfill_targets().end();
+       ++i) {
+    pg_shard_t bt = *i;
+    const pg_info_t& pinfo = recovery_state.get_peer_info(bt);
+    if (soid > pinfo.last_backfill && soid <= last_backfill_started) {
+      pending_backfill_updates[soid].stats.add(delta_stats);
+    }
+  }
+
+  m_scrubber->stats_of_handled_objects(delta_stats, soid);
+}
+
+void PrimaryLogPG::complete_read_ctx(int result, OpContext *ctx)
+{
+  auto m = ctx->op->get_req<MOSDOp>();
+  ceph_assert(ctx->async_reads_complete());
+
+  for (auto p = ctx->ops->begin();
+    p != ctx->ops->end() && result >= 0; ++p) {
+    if (p->rval < 0 && !(p->op.flags & CEPH_OSD_OP_FLAG_FAILOK)) {
+      result = p->rval;
+      break;
+    }
+    ctx->bytes_read += p->outdata.length();
+  }
+  ctx->reply->get_header().data_off = (ctx->data_off ? *ctx->data_off : 0);
+
+  MOSDOpReply *reply = ctx->reply;
+  ctx->reply = nullptr;
+
+  if (result >= 0) {
+    if (!ctx->ignore_log_op_stats) {
+      log_op_stats(*ctx->op, ctx->bytes_written, ctx->bytes_read);
+
+      publish_stats_to_osd();
+    }
+
+    // on read, return the current object version
+    if (ctx->obs) {
+      reply->set_reply_versions(eversion_t(), ctx->obs->oi.user_version);
+    } else {
+      reply->set_reply_versions(eversion_t(), ctx->user_at_version);
+    }
+  } else if (result == -ENOENT) {
+    // on ENOENT, set a floor for what the next user version will be.
+    reply->set_enoent_reply_versions(info.last_update, info.last_user_version);
+  }
+
+  reply->set_result(result);
+  reply->add_flags(CEPH_OSD_FLAG_ACK | CEPH_OSD_FLAG_ONDISK);
+  osd->send_message_osd_client(reply, m->get_connection());
+  close_op_ctx(ctx);
+}
+
+// ========================================================================
+// copyfrom
+
+struct C_Copyfrom : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  PrimaryLogPG::CopyOpRef cop;	// used for keeping the cop alive
+  C_Copyfrom(PrimaryLogPG *p, hobject_t o, epoch_t lpr,
+	     const PrimaryLogPG::CopyOpRef& c)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), cop(c)
+  {}
+  void finish(int r) override {
+    if (r == -ECANCELED)
+      return;
+    std::scoped_lock l{*pg};
+    if (last_peering_reset == pg->get_last_peering_reset()) {
+      pg->process_copy_chunk(oid, tid, r);
+      cop.reset();
+    }
+  }
+};
+
+struct C_CopyFrom_AsyncReadCb : public Context {
+  OSDOp *osd_op;
+  object_copy_data_t reply_obj;
+  uint64_t features;
+  size_t len;
+  C_CopyFrom_AsyncReadCb(OSDOp *osd_op, uint64_t features) :
+    osd_op(osd_op), features(features), len(0) {}
+  void finish(int r) override {
+    osd_op->rval = r;
+    if (r < 0) {
+      return;
+    }
+
+    ceph_assert(len > 0);
+    ceph_assert(len <= reply_obj.data.length());
+    bufferlist bl;
+    bl.substr_of(reply_obj.data, 0, len);
+    reply_obj.data.swap(bl);
+    encode(reply_obj, osd_op->outdata, features);
+  }
+};
+
+struct C_CopyChunk : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  PrimaryLogPG::CopyOpRef cop;	// used for keeping the cop alive
+  uint64_t offset = 0;
+  C_CopyChunk(PrimaryLogPG *p, hobject_t o, epoch_t lpr,
+	     const PrimaryLogPG::CopyOpRef& c)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), cop(c)
+  {}
+  void finish(int r) override {
+    if (r == -ECANCELED)
+      return;
+    std::scoped_lock l{*pg};
+    if (last_peering_reset == pg->get_last_peering_reset()) {
+      pg->process_copy_chunk_manifest(oid, tid, r, offset);
+      cop.reset();
+    }
+  }
+};
+
+int PrimaryLogPG::do_copy_get(OpContext *ctx, bufferlist::const_iterator& bp,
+			      OSDOp& osd_op, ObjectContextRef &obc)
+{
+  object_info_t& oi = obc->obs.oi;
+  hobject_t& soid = oi.soid;
+  int result = 0;
+  object_copy_cursor_t cursor;
+  uint64_t out_max;
+  try {
+    decode(cursor, bp);
+    decode(out_max, bp);
+  }
+  catch (ceph::buffer::error& e) {
+    result = -EINVAL;
+    return result;
+  }
+
+  const MOSDOp *op = reinterpret_cast<const MOSDOp*>(ctx->op->get_req());
+  uint64_t features = op->get_features();
+
+  bool async_read_started = false;
+  object_copy_data_t _reply_obj;
+  C_CopyFrom_AsyncReadCb *cb = nullptr;
+  if (pool.info.is_erasure()) {
+    cb = new C_CopyFrom_AsyncReadCb(&osd_op, features);
+  }
+  object_copy_data_t &reply_obj = cb ? cb->reply_obj : _reply_obj;
+  // size, mtime
+  reply_obj.size = oi.size;
+  reply_obj.mtime = oi.mtime;
+  ceph_assert(obc->ssc);
+  if (soid.snap < CEPH_NOSNAP) {
+    auto p = obc->ssc->snapset.clone_snaps.find(soid.snap);
+    ceph_assert(p != obc->ssc->snapset.clone_snaps.end()); // warn?
+    reply_obj.snaps = p->second;
+  } else {
+    reply_obj.snap_seq = obc->ssc->snapset.seq;
+  }
+  if (oi.is_data_digest()) {
+    reply_obj.flags |= object_copy_data_t::FLAG_DATA_DIGEST;
+    reply_obj.data_digest = oi.data_digest;
+  }
+  if (oi.is_omap_digest()) {
+    reply_obj.flags |= object_copy_data_t::FLAG_OMAP_DIGEST;
+    reply_obj.omap_digest = oi.omap_digest;
+  }
+  reply_obj.truncate_seq = oi.truncate_seq;
+  reply_obj.truncate_size = oi.truncate_size;
+
+  // attrs
+  map<string,bufferlist>& out_attrs = reply_obj.attrs;
+  if (!cursor.attr_complete) {
+    result = getattrs_maybe_cache(
+      ctx->obc,
+      &out_attrs);
+    if (result < 0) {
+      if (cb) {
+        delete cb;
+      }
+      return result;
+    }
+    cursor.attr_complete = true;
+    dout(20) << " got attrs" << dendl;
+  }
+
+  int64_t left = out_max - osd_op.outdata.length();
+
+  // data
+  bufferlist& bl = reply_obj.data;
+  if (left > 0 && !cursor.data_complete) {
+    if (cursor.data_offset < oi.size) {
+      uint64_t max_read = std::min(oi.size - cursor.data_offset, (uint64_t)left);
+      if (cb) {
+	async_read_started = true;
+	ctx->pending_async_reads.push_back(
+	  make_pair(
+	    boost::make_tuple(cursor.data_offset, max_read, osd_op.op.flags),
+	    make_pair(&bl, cb)));
+	cb->len = max_read;
+
+        ctx->op_finishers[ctx->current_osd_subop_num].reset(
+          new ReadFinisher(osd_op));
+	result = -EINPROGRESS;
+
+	dout(10) << __func__ << ": async_read noted for " << soid << dendl;
+      } else {
+	result = pgbackend->objects_read_sync(
+	  oi.soid, cursor.data_offset, max_read, osd_op.op.flags, &bl);
+	if (result < 0)
+	  return result;
+      }
+      left -= max_read;
+      cursor.data_offset += max_read;
+    }
+    if (cursor.data_offset == oi.size) {
+      cursor.data_complete = true;
+      dout(20) << " got data" << dendl;
+    }
+    ceph_assert(cursor.data_offset <= oi.size);
+  }
+
+  // omap
+  uint32_t omap_keys = 0;
+  if (!pool.info.supports_omap() || !oi.is_omap()) {
+    cursor.omap_complete = true;
+  } else {
+    if (left > 0 && !cursor.omap_complete) {
+      ceph_assert(cursor.data_complete);
+      if (cursor.omap_offset.empty()) {
+	osd->store->omap_get_header(ch, ghobject_t(oi.soid),
+				    &reply_obj.omap_header);
+      }
+      bufferlist omap_data;
+      ObjectMap::ObjectMapIterator iter =
+	osd->store->get_omap_iterator(ch, ghobject_t(oi.soid));
+      ceph_assert(iter);
+      iter->upper_bound(cursor.omap_offset);
+      for (; iter->valid(); iter->next()) {
+	++omap_keys;
+	encode(iter->key(), omap_data);
+	encode(iter->value(), omap_data);
+	left -= iter->key().length() + 4 + iter->value().length() + 4;
+	if (left <= 0)
+	  break;
+      }
+      if (omap_keys) {
+	encode(omap_keys, reply_obj.omap_data);
+	reply_obj.omap_data.claim_append(omap_data);
+      }
+      if (iter->valid()) {
+	cursor.omap_offset = iter->key();
+      } else {
+	cursor.omap_complete = true;
+	dout(20) << " got omap" << dendl;
+      }
+    }
+  }
+
+  if (cursor.is_complete()) {
+    // include reqids only in the final step.  this is a bit fragile
+    // but it works...
+    recovery_state.get_pg_log().get_log().get_object_reqids(ctx->obc->obs.oi.soid, 10,
+                                       &reply_obj.reqids,
+                                       &reply_obj.reqid_return_codes);
+    dout(20) << " got reqids" << dendl;
+  }
+
+  dout(20) << " cursor.is_complete=" << cursor.is_complete()
+	   << " " << out_attrs.size() << " attrs"
+	   << " " << bl.length() << " bytes"
+	   << " " << reply_obj.omap_header.length() << " omap header bytes"
+	   << " " << reply_obj.omap_data.length() << " omap data bytes in "
+	   << omap_keys << " keys"
+	   << " " << reply_obj.reqids.size() << " reqids"
+	   << dendl;
+  reply_obj.cursor = cursor;
+  if (!async_read_started) {
+    encode(reply_obj, osd_op.outdata, features);
+  }
+  if (cb && !async_read_started) {
+    delete cb;
+  }
+
+  if (result > 0) {
+    result = 0;
+  }
+  return result;
+}
+
+void PrimaryLogPG::fill_in_copy_get_noent(OpRequestRef& op, hobject_t oid,
+                                          OSDOp& osd_op)
+{
+  const MOSDOp *m = static_cast<const MOSDOp*>(op->get_req());
+  uint64_t features = m->get_features();
+  object_copy_data_t reply_obj;
+
+  recovery_state.get_pg_log().get_log().get_object_reqids(oid, 10, &reply_obj.reqids,
+                                     &reply_obj.reqid_return_codes);
+  dout(20) << __func__ << " got reqids " << reply_obj.reqids << dendl;
+  encode(reply_obj, osd_op.outdata, features);
+  osd_op.rval = -ENOENT;
+  MOSDOpReply *reply = new MOSDOpReply(m, 0, get_osdmap_epoch(), 0, false);
+  reply->set_result(-ENOENT);
+  reply->add_flags(CEPH_OSD_FLAG_ACK | CEPH_OSD_FLAG_ONDISK);
+  osd->send_message_osd_client(reply, m->get_connection());
+}
+
+void PrimaryLogPG::start_copy(CopyCallback *cb, ObjectContextRef obc,
+			      hobject_t src, object_locator_t oloc,
+			      version_t version, unsigned flags,
+			      bool mirror_snapset,
+			      unsigned src_obj_fadvise_flags,
+			      unsigned dest_obj_fadvise_flags)
+{
+  const hobject_t& dest = obc->obs.oi.soid;
+  dout(10) << __func__ << " " << dest
+	   << " from " << src << " " << oloc << " v" << version
+	   << " flags " << flags
+	   << (mirror_snapset ? " mirror_snapset" : "")
+	   << dendl;
+
+  ceph_assert(!mirror_snapset || src.snap == CEPH_NOSNAP);
+
+  // cancel a previous in-progress copy?
+  if (copy_ops.count(dest)) {
+    // FIXME: if the src etc match, we could avoid restarting from the
+    // beginning.
+    CopyOpRef cop = copy_ops[dest];
+    vector<ceph_tid_t> tids;
+    cancel_copy(cop, false, &tids);
+    osd->objecter->op_cancel(tids, -ECANCELED);
+  }
+
+  CopyOpRef cop(std::make_shared<CopyOp>(cb, obc, src, oloc, version, flags,
+			   mirror_snapset, src_obj_fadvise_flags,
+			   dest_obj_fadvise_flags));
+  copy_ops[dest] = cop;
+  obc->start_block();
+
+  if (!obc->obs.oi.has_manifest()) {
+    _copy_some(obc, cop);
+  } else {
+    if (obc->obs.oi.manifest.is_redirect()) {
+      _copy_some(obc, cop);
+    } else if (obc->obs.oi.manifest.is_chunked()) {
+      auto p = obc->obs.oi.manifest.chunk_map.begin();
+      _copy_some_manifest(obc, cop, p->first);
+    } else {
+      ceph_abort_msg("unrecognized manifest type");
+    }
+  }
+}
+
+void PrimaryLogPG::_copy_some(ObjectContextRef obc, CopyOpRef cop)
+{
+  dout(10) << __func__ << " " << *obc << " " << cop << dendl;
+
+  unsigned flags = 0;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_FLUSH)
+    flags |= CEPH_OSD_FLAG_FLUSH;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_IGNORE_CACHE)
+    flags |= CEPH_OSD_FLAG_IGNORE_CACHE;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_IGNORE_OVERLAY)
+    flags |= CEPH_OSD_FLAG_IGNORE_OVERLAY;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_MAP_SNAP_CLONE)
+    flags |= CEPH_OSD_FLAG_MAP_SNAP_CLONE;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_RWORDERED)
+    flags |= CEPH_OSD_FLAG_RWORDERED;
+
+  C_GatherBuilder gather(cct);
+
+  if (cop->cursor.is_initial() && cop->mirror_snapset) {
+    // list snaps too.
+    ceph_assert(cop->src.snap == CEPH_NOSNAP);
+    ObjectOperation op;
+    op.list_snaps(&cop->results.snapset, NULL);
+    ceph_tid_t tid = osd->objecter->read(cop->src.oid, cop->oloc, op,
+				    CEPH_SNAPDIR, NULL,
+				    flags, gather.new_sub(), NULL);
+    cop->objecter_tid2 = tid;
+  }
+
+  ObjectOperation op;
+  if (cop->results.user_version) {
+    op.assert_version(cop->results.user_version);
+  } else {
+    // we should learn the version after the first chunk, if we didn't know
+    // it already!
+    ceph_assert(cop->cursor.is_initial());
+  }
+  op.copy_get(&cop->cursor, get_copy_chunk_size(),
+	      &cop->results.object_size, &cop->results.mtime,
+	      &cop->attrs, &cop->data, &cop->omap_header, &cop->omap_data,
+	      &cop->results.snaps, &cop->results.snap_seq,
+	      &cop->results.flags,
+	      &cop->results.source_data_digest,
+	      &cop->results.source_omap_digest,
+	      &cop->results.reqids,
+	      &cop->results.reqid_return_codes,
+	      &cop->results.truncate_seq,
+	      &cop->results.truncate_size,
+	      &cop->rval);
+  op.set_last_op_flags(cop->src_obj_fadvise_flags);
+
+  C_Copyfrom *fin = new C_Copyfrom(this, obc->obs.oi.soid,
+				   get_last_peering_reset(), cop);
+  gather.set_finisher(new C_OnFinisher(fin,
+				       osd->get_objecter_finisher(get_pg_shard())));
+
+  ceph_tid_t tid = osd->objecter->read(cop->src.oid, cop->oloc, op,
+				  cop->src.snap, NULL,
+				  flags,
+				  gather.new_sub(),
+				  // discover the object version if we don't know it yet
+				  cop->results.user_version ? NULL : &cop->results.user_version);
+  fin->tid = tid;
+  cop->objecter_tid = tid;
+  gather.activate();
+}
+
+void PrimaryLogPG::_copy_some_manifest(ObjectContextRef obc, CopyOpRef cop, uint64_t start_offset)
+{
+  dout(10) << __func__ << " " << *obc << " " << cop << dendl;
+
+  unsigned flags = 0;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_FLUSH)
+    flags |= CEPH_OSD_FLAG_FLUSH;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_IGNORE_CACHE)
+    flags |= CEPH_OSD_FLAG_IGNORE_CACHE;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_IGNORE_OVERLAY)
+    flags |= CEPH_OSD_FLAG_IGNORE_OVERLAY;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_MAP_SNAP_CLONE)
+    flags |= CEPH_OSD_FLAG_MAP_SNAP_CLONE;
+  if (cop->flags & CEPH_OSD_COPY_FROM_FLAG_RWORDERED)
+    flags |= CEPH_OSD_FLAG_RWORDERED;
+
+  int num_chunks = 0;
+  uint64_t last_offset = 0, chunks_size = 0;
+  object_manifest_t *manifest = &obc->obs.oi.manifest;
+  map<uint64_t, chunk_info_t>::iterator iter = manifest->chunk_map.find(start_offset);
+  for (;iter != manifest->chunk_map.end(); ++iter) {
+    num_chunks++;
+    chunks_size += iter->second.length;
+    last_offset = iter->first;
+    if (get_copy_chunk_size() < chunks_size) {
+      break;
+    }
+  }
+
+  cop->num_chunk = num_chunks;
+  cop->start_offset = start_offset;
+  cop->last_offset = last_offset;
+  dout(20) << __func__ << " oid " << obc->obs.oi.soid << " num_chunks: " << num_chunks
+	  << " start_offset: " << start_offset << " chunks_size: " << chunks_size
+	  << " last_offset: " << last_offset << dendl;
+
+  iter = manifest->chunk_map.find(start_offset);
+  for (;iter != manifest->chunk_map.end(); ++iter) {
+    uint64_t obj_offset = iter->first;
+    uint64_t length = manifest->chunk_map[iter->first].length;
+    hobject_t soid = manifest->chunk_map[iter->first].oid;
+    object_locator_t oloc(soid);
+    CopyCallback * cb = NULL;
+    CopyOpRef sub_cop(std::make_shared<CopyOp>(cb, ObjectContextRef(), cop->src, oloc,
+		       cop->results.user_version, cop->flags, cop->mirror_snapset,
+		       cop->src_obj_fadvise_flags, cop->dest_obj_fadvise_flags));
+    sub_cop->cursor.data_offset = obj_offset;
+    cop->chunk_cops[obj_offset] = sub_cop;
+
+    int s = sub_cop->chunk_ops.size();
+    sub_cop->chunk_ops.resize(s+1);
+    sub_cop->chunk_ops[s].op.op =  CEPH_OSD_OP_READ;
+    sub_cop->chunk_ops[s].op.extent.offset = manifest->chunk_map[iter->first].offset;
+    sub_cop->chunk_ops[s].op.extent.length = length;
+
+    ObjectOperation op;
+    op.dup(sub_cop->chunk_ops);
+
+    if (cop->results.user_version) {
+      op.assert_version(cop->results.user_version);
+    } else {
+      // we should learn the version after the first chunk, if we didn't know
+      // it already!
+      ceph_assert(cop->cursor.is_initial());
+    }
+    op.set_last_op_flags(cop->src_obj_fadvise_flags);
+
+    C_CopyChunk *fin = new C_CopyChunk(this, obc->obs.oi.soid,
+				     get_last_peering_reset(), cop);
+    fin->offset = obj_offset;
+
+    ceph_tid_t tid = osd->objecter->read(
+      soid.oid, oloc, op,
+      sub_cop->src.snap, NULL,
+      flags,
+      new C_OnFinisher(fin, osd->get_objecter_finisher(get_pg_shard())),
+      // discover the object version if we don't know it yet
+      sub_cop->results.user_version ? NULL : &sub_cop->results.user_version);
+    fin->tid = tid;
+    sub_cop->objecter_tid = tid;
+
+    dout(20) << __func__ << " tgt_oid: " << soid.oid << " tgt_offset: "
+	    << manifest->chunk_map[iter->first].offset
+	    << " length: " << length << " pool id: " << oloc.pool
+	    << " tid: " << tid << dendl;
+
+    if (last_offset < iter->first) {
+      break;
+    }
+  }
+}
+
+void PrimaryLogPG::process_copy_chunk(hobject_t oid, ceph_tid_t tid, int r)
+{
+  dout(10) << __func__ << " " << oid << " tid " << tid
+	   << " " << cpp_strerror(r) << dendl;
+  map<hobject_t,CopyOpRef>::iterator p = copy_ops.find(oid);
+  if (p == copy_ops.end()) {
+    dout(10) << __func__ << " no copy_op found" << dendl;
+    return;
+  }
+  CopyOpRef cop = p->second;
+  if (tid != cop->objecter_tid) {
+    dout(10) << __func__ << " tid " << tid << " != cop " << cop
+	     << " tid " << cop->objecter_tid << dendl;
+    return;
+  }
+
+  if (cop->omap_data.length() || cop->omap_header.length())
+    cop->results.has_omap = true;
+
+  if (r >= 0 && !pool.info.supports_omap() &&
+      (cop->omap_data.length() || cop->omap_header.length())) {
+    r = -EOPNOTSUPP;
+  }
+  cop->objecter_tid = 0;
+  cop->objecter_tid2 = 0;  // assume this ordered before us (if it happened)
+  ObjectContextRef& cobc = cop->obc;
+
+  if (r < 0)
+    goto out;
+
+  ceph_assert(cop->rval >= 0);
+
+  if (oid.snap < CEPH_NOSNAP && !cop->results.snaps.empty()) {
+    // verify snap hasn't been deleted
+    vector<snapid_t>::iterator p = cop->results.snaps.begin();
+    while (p != cop->results.snaps.end()) {
+      // make best effort to sanitize snaps/clones.
+      if (get_osdmap()->in_removed_snaps_queue(info.pgid.pgid.pool(), *p)) {
+	dout(10) << __func__ << " clone snap " << *p << " has been deleted"
+		 << dendl;
+	for (vector<snapid_t>::iterator q = p + 1;
+	     q != cop->results.snaps.end();
+	     ++q)
+	  *(q - 1) = *q;
+	cop->results.snaps.resize(cop->results.snaps.size() - 1);
+      } else {
+	++p;
+      }
+    }
+    if (cop->results.snaps.empty()) {
+      dout(10) << __func__ << " no more snaps for " << oid << dendl;
+      r = -ENOENT;
+      goto out;
+    }
+  }
+
+  ceph_assert(cop->rval >= 0);
+
+  if (!cop->temp_cursor.data_complete) {
+    cop->results.data_digest = cop->data.crc32c(cop->results.data_digest);
+  }
+  if (pool.info.supports_omap() && !cop->temp_cursor.omap_complete) {
+    if (cop->omap_header.length()) {
+      cop->results.omap_digest =
+	cop->omap_header.crc32c(cop->results.omap_digest);
+    }
+    if (cop->omap_data.length()) {
+      bufferlist keys;
+      keys.substr_of(cop->omap_data, 4, cop->omap_data.length() - 4);
+      cop->results.omap_digest = keys.crc32c(cop->results.omap_digest);
+    }
+  }
+
+  if (!cop->temp_cursor.attr_complete) {
+    for (map<string,bufferlist>::iterator p = cop->attrs.begin();
+	 p != cop->attrs.end();
+	 ++p) {
+      cop->results.attrs[string("_") + p->first] = p->second;
+    }
+    cop->attrs.clear();
+  }
+
+  if (!cop->cursor.is_complete()) {
+    // write out what we have so far
+    if (cop->temp_cursor.is_initial()) {
+      ceph_assert(!cop->results.started_temp_obj);
+      cop->results.started_temp_obj = true;
+      cop->results.temp_oid = generate_temp_object(oid);
+      dout(20) << __func__ << " using temp " << cop->results.temp_oid << dendl;
+    }
+    ObjectContextRef tempobc = get_object_context(cop->results.temp_oid, true);
+    OpContextUPtr ctx = simple_opc_create(tempobc);
+    if (cop->temp_cursor.is_initial()) {
+      ctx->new_temp_oid = cop->results.temp_oid;
+    }
+    _write_copy_chunk(cop, ctx->op_t.get());
+    simple_opc_submit(std::move(ctx));
+    dout(10) << __func__ << " fetching more" << dendl;
+    _copy_some(cobc, cop);
+    return;
+  }
+
+  // verify digests?
+  if (cop->results.is_data_digest() || cop->results.is_omap_digest()) {
+    dout(20) << __func__ << std::hex
+      << " got digest: rx data 0x" << cop->results.data_digest
+      << " omap 0x" << cop->results.omap_digest
+      << ", source: data 0x" << cop->results.source_data_digest
+      << " omap 0x" <<  cop->results.source_omap_digest
+      << std::dec
+      << " flags " << cop->results.flags
+      << dendl;
+  }
+  if (cop->results.is_data_digest() &&
+      cop->results.data_digest != cop->results.source_data_digest) {
+    derr << __func__ << std::hex << " data digest 0x" << cop->results.data_digest
+	 << " != source 0x" << cop->results.source_data_digest << std::dec
+	 << dendl;
+    osd->clog->error() << info.pgid << " copy from " << cop->src
+		       << " to " << cop->obc->obs.oi.soid << std::hex
+		       << " data digest 0x" << cop->results.data_digest
+		       << " != source 0x" << cop->results.source_data_digest
+		       << std::dec;
+    r = -EIO;
+    goto out;
+  }
+  if (cop->results.is_omap_digest() &&
+      cop->results.omap_digest != cop->results.source_omap_digest) {
+    derr << __func__ << std::hex
+	 << " omap digest 0x" << cop->results.omap_digest
+	 << " != source 0x" << cop->results.source_omap_digest
+	 << std::dec << dendl;
+    osd->clog->error() << info.pgid << " copy from " << cop->src
+		       << " to " << cop->obc->obs.oi.soid << std::hex
+		       << " omap digest 0x" << cop->results.omap_digest
+		       << " != source 0x" << cop->results.source_omap_digest
+		       << std::dec;
+    r = -EIO;
+    goto out;
+  }
+  if (cct->_conf->osd_debug_inject_copyfrom_error) {
+    derr << __func__ << " injecting copyfrom failure" << dendl;
+    r = -EIO;
+    goto out;
+  }
+
+  cop->results.fill_in_final_tx = std::function<void(PGTransaction*)>(
+    [this, &cop /* avoid ref cycle */](PGTransaction *t) {
+      ObjectState& obs = cop->obc->obs;
+      if (cop->temp_cursor.is_initial()) {
+	dout(20) << "fill_in_final_tx: writing "
+		 << "directly to final object" << dendl;
+	// write directly to final object
+	cop->results.temp_oid = obs.oi.soid;
+	_write_copy_chunk(cop, t);
+      } else {
+	// finish writing to temp object, then move into place
+	dout(20) << "fill_in_final_tx: writing to temp object" << dendl;
+	if (obs.oi.has_manifest() && obs.oi.manifest.is_redirect() && obs.exists) {
+	  /* In redirect manifest case, the object exists in the upper tier.
+	   * So, to avoid a conflict when rename() is called, remove existing
+	   * object first
+	   */
+	  t->remove(obs.oi.soid);
+	}
+	_write_copy_chunk(cop, t);
+	t->rename(obs.oi.soid, cop->results.temp_oid);
+      }
+      t->setattrs(obs.oi.soid, cop->results.attrs);
+    });
+
+  dout(20) << __func__ << " success; committing" << dendl;
+
+ out:
+  dout(20) << __func__ << " complete r = " << cpp_strerror(r) << dendl;
+  CopyCallbackResults results(r, &cop->results);
+  cop->cb->complete(results);
+
+  copy_ops.erase(cobc->obs.oi.soid);
+  cobc->stop_block();
+
+  if (r < 0 && cop->results.started_temp_obj) {
+    dout(10) << __func__ << " deleting partial temp object "
+	     << cop->results.temp_oid << dendl;
+    ObjectContextRef tempobc = get_object_context(cop->results.temp_oid, true);
+    OpContextUPtr ctx = simple_opc_create(tempobc);
+    ctx->op_t->remove(cop->results.temp_oid);
+    ctx->discard_temp_oid = cop->results.temp_oid;
+    simple_opc_submit(std::move(ctx));
+  }
+
+  // cancel and requeue proxy ops on this object
+  if (!r) {
+    cancel_and_requeue_proxy_ops(cobc->obs.oi.soid);
+  }
+
+  kick_object_context_blocked(cobc);
+}
+
+void PrimaryLogPG::process_copy_chunk_manifest(hobject_t oid, ceph_tid_t tid, int r, uint64_t offset)
+{
+  dout(10) << __func__ << " " << oid << " tid " << tid
+	   << " " << cpp_strerror(r) << dendl;
+  map<hobject_t,CopyOpRef>::iterator p = copy_ops.find(oid);
+  if (p == copy_ops.end()) {
+    dout(10) << __func__ << " no copy_op found" << dendl;
+    return;
+  }
+  CopyOpRef obj_cop = p->second;
+  CopyOpRef chunk_cop = obj_cop->chunk_cops[offset];
+
+  if (tid != chunk_cop->objecter_tid) {
+    dout(10) << __func__ << " tid " << tid << " != cop " << chunk_cop
+	     << " tid " << chunk_cop->objecter_tid << dendl;
+    return;
+  }
+
+  if (chunk_cop->omap_data.length() || chunk_cop->omap_header.length()) {
+    r = -EOPNOTSUPP;
+  }
+
+  chunk_cop->objecter_tid = 0;
+  chunk_cop->objecter_tid2 = 0;  // assume this ordered before us (if it happened)
+  ObjectContextRef& cobc = obj_cop->obc;
+  OSDOp &chunk_data = chunk_cop->chunk_ops[0];
+
+  if (r < 0) {
+    obj_cop->failed = true;
+    goto out;
+  }
+
+  if (obj_cop->failed) {
+    return;
+  }
+  if (!chunk_data.outdata.length()) {
+    r = -EIO;
+    obj_cop->failed = true;
+    goto out;
+  }
+
+  obj_cop->num_chunk--;
+
+  /* check all of the copyop are completed */
+  if (obj_cop->num_chunk) {
+    dout(20) << __func__ << " num_chunk: " << obj_cop->num_chunk << dendl;
+    return;
+  }
+
+  {
+    OpContextUPtr ctx = simple_opc_create(obj_cop->obc);
+    if (!ctx->lock_manager.take_write_lock(
+	  obj_cop->obc->obs.oi.soid,
+	  obj_cop->obc)) {
+      // recovery op can take read lock.
+      // so need to wait for recovery completion
+      r = -EAGAIN;
+      obj_cop->failed = true;
+      close_op_ctx(ctx.release());
+      goto out;
+    }
+    dout(20) << __func__ << " took lock on obc, " << obj_cop->obc->rwstate << dendl;
+
+    PGTransaction *t = ctx->op_t.get();
+    ObjectState& obs = ctx->new_obs;
+    for (auto p : obj_cop->chunk_cops) {
+      OSDOp &sub_chunk = p.second->chunk_ops[0];
+      t->write(cobc->obs.oi.soid,
+	      p.second->cursor.data_offset,
+	      sub_chunk.outdata.length(),
+	      sub_chunk.outdata,
+	      p.second->dest_obj_fadvise_flags);
+      dout(20) << __func__ << " offset: " << p.second->cursor.data_offset
+	      << " length: " << sub_chunk.outdata.length() << dendl;
+      write_update_size_and_usage(ctx->delta_stats, obs.oi, ctx->modified_ranges,
+				  p.second->cursor.data_offset, sub_chunk.outdata.length());
+      obs.oi.manifest.chunk_map[p.second->cursor.data_offset].clear_flag(chunk_info_t::FLAG_MISSING);
+      ctx->clean_regions.mark_data_region_dirty(p.second->cursor.data_offset, sub_chunk.outdata.length());
+      sub_chunk.outdata.clear();
+    }
+    obs.oi.clear_data_digest();
+    ctx->at_version = get_next_version();
+    finish_ctx(ctx.get(), pg_log_entry_t::PROMOTE);
+    simple_opc_submit(std::move(ctx));
+
+    auto p = cobc->obs.oi.manifest.chunk_map.rbegin();
+    /* check remaining work */
+    if (p != cobc->obs.oi.manifest.chunk_map.rend()) {
+      if (obj_cop->last_offset >= p->first + p->second.length) {
+	for (auto &en : cobc->obs.oi.manifest.chunk_map) {
+	  if (obj_cop->last_offset < en.first) {
+	    _copy_some_manifest(cobc, obj_cop, en.first);
+	    return;
+	  }
+	}
+      }
+    }
+  }
+
+ out:
+  dout(20) << __func__ << " complete r = " << cpp_strerror(r) << dendl;
+  CopyCallbackResults results(r, &obj_cop->results);
+  obj_cop->cb->complete(results);
+
+  copy_ops.erase(cobc->obs.oi.soid);
+  cobc->stop_block();
+
+  // cancel and requeue proxy ops on this object
+  if (!r) {
+    cancel_and_requeue_proxy_ops(cobc->obs.oi.soid);
+  }
+
+  kick_object_context_blocked(cobc);
+}
+
+void PrimaryLogPG::cancel_and_requeue_proxy_ops(hobject_t oid) {
+  vector<ceph_tid_t> tids;
+  for (map<ceph_tid_t, ProxyReadOpRef>::iterator it = proxyread_ops.begin();
+      it != proxyread_ops.end();) {
+    if (it->second->soid == oid) {
+      cancel_proxy_read((it++)->second, &tids);
+    } else {
+      ++it;
+    }
+  }
+  for (map<ceph_tid_t, ProxyWriteOpRef>::iterator it = proxywrite_ops.begin();
+       it != proxywrite_ops.end();) {
+    if (it->second->soid == oid) {
+      cancel_proxy_write((it++)->second, &tids);
+    } else {
+      ++it;
+    }
+  }
+  osd->objecter->op_cancel(tids, -ECANCELED);
+  kick_proxy_ops_blocked(oid);
+}
+
+void PrimaryLogPG::_write_copy_chunk(CopyOpRef cop, PGTransaction *t)
+{
+  dout(20) << __func__ << " " << cop
+	   << " " << cop->attrs.size() << " attrs"
+	   << " " << cop->data.length() << " bytes"
+	   << " " << cop->omap_header.length() << " omap header bytes"
+	   << " " << cop->omap_data.length() << " omap data bytes"
+	   << dendl;
+  if (!cop->temp_cursor.attr_complete) {
+    t->create(cop->results.temp_oid);
+  }
+  if (!cop->temp_cursor.data_complete) {
+    ceph_assert(cop->data.length() + cop->temp_cursor.data_offset ==
+	   cop->cursor.data_offset);
+    if (pool.info.required_alignment() &&
+	!cop->cursor.data_complete) {
+      /**
+       * Trim off the unaligned bit at the end, we'll adjust cursor.data_offset
+       * to pick it up on the next pass.
+       */
+      ceph_assert(cop->temp_cursor.data_offset %
+	     pool.info.required_alignment() == 0);
+      if (cop->data.length() % pool.info.required_alignment() != 0) {
+	uint64_t to_trim =
+	  cop->data.length() % pool.info.required_alignment();
+	bufferlist bl;
+	bl.substr_of(cop->data, 0, cop->data.length() - to_trim);
+	cop->data.swap(bl);
+	cop->cursor.data_offset -= to_trim;
+	ceph_assert(cop->data.length() + cop->temp_cursor.data_offset ==
+	       cop->cursor.data_offset);
+      }
+    }
+    if (cop->data.length()) {
+      t->write(
+	cop->results.temp_oid,
+	cop->temp_cursor.data_offset,
+	cop->data.length(),
+	cop->data,
+	cop->dest_obj_fadvise_flags);
+    }
+    cop->data.clear();
+  }
+  if (pool.info.supports_omap()) {
+    if (!cop->temp_cursor.omap_complete) {
+      if (cop->omap_header.length()) {
+	t->omap_setheader(
+	  cop->results.temp_oid,
+	  cop->omap_header);
+	cop->omap_header.clear();
+      }
+      if (cop->omap_data.length()) {
+	map<string,bufferlist> omap;
+	bufferlist::const_iterator p = cop->omap_data.begin();
+	decode(omap, p);
+	t->omap_setkeys(cop->results.temp_oid, omap);
+	cop->omap_data.clear();
+      }
+    }
+  } else {
+    ceph_assert(cop->omap_header.length() == 0);
+    ceph_assert(cop->omap_data.length() == 0);
+  }
+  cop->temp_cursor = cop->cursor;
+}
+
+void PrimaryLogPG::finish_copyfrom(CopyFromCallback *cb)
+{
+  OpContext *ctx = cb->ctx;
+  dout(20) << "finish_copyfrom on " << ctx->obs->oi.soid << dendl;
+
+  ObjectState& obs = ctx->new_obs;
+  if (obs.exists) {
+    dout(20) << __func__ << ": exists, removing" << dendl;
+    ctx->op_t->remove(obs.oi.soid);
+  } else {
+    ctx->delta_stats.num_objects++;
+    obs.exists = true;
+  }
+  if (cb->is_temp_obj_used()) {
+    ctx->discard_temp_oid = cb->results->temp_oid;
+  }
+  cb->results->fill_in_final_tx(ctx->op_t.get());
+
+  // CopyFromCallback fills this in for us
+  obs.oi.user_version = ctx->user_at_version;
+
+  if (cb->results->is_data_digest()) {
+    obs.oi.set_data_digest(cb->results->data_digest);
+  } else {
+    obs.oi.clear_data_digest();
+  }
+  if (cb->results->is_omap_digest()) {
+    obs.oi.set_omap_digest(cb->results->omap_digest);
+  } else {
+    obs.oi.clear_omap_digest();
+  }
+
+  obs.oi.truncate_seq = cb->truncate_seq;
+  obs.oi.truncate_size = cb->truncate_size;
+
+  obs.oi.mtime = ceph::real_clock::to_timespec(cb->results->mtime);
+  ctx->mtime = utime_t();
+
+  ctx->extra_reqids = cb->results->reqids;
+  ctx->extra_reqid_return_codes = cb->results->reqid_return_codes;
+
+  // cache: clear whiteout?
+  if (obs.oi.is_whiteout()) {
+    dout(10) << __func__ << " clearing whiteout on " << obs.oi.soid << dendl;
+    obs.oi.clear_flag(object_info_t::FLAG_WHITEOUT);
+    --ctx->delta_stats.num_whiteouts;
+  }
+
+  if (cb->results->has_omap) {
+    dout(10) << __func__ << " setting omap flag on " << obs.oi.soid << dendl;
+    obs.oi.set_flag(object_info_t::FLAG_OMAP);
+    ctx->clean_regions.mark_omap_dirty();
+  } else {
+    dout(10) << __func__ << " clearing omap flag on " << obs.oi.soid << dendl;
+    obs.oi.clear_flag(object_info_t::FLAG_OMAP);
+  }
+
+  interval_set<uint64_t> ch;
+  if (obs.oi.size > 0)
+    ch.insert(0, obs.oi.size);
+  ctx->modified_ranges.union_of(ch);
+  ctx->clean_regions.mark_data_region_dirty(0, std::max(obs.oi.size, cb->get_data_size()));
+
+  if (cb->get_data_size() != obs.oi.size) {
+    ctx->delta_stats.num_bytes -= obs.oi.size;
+    obs.oi.size = cb->get_data_size();
+    ctx->delta_stats.num_bytes += obs.oi.size;
+  }
+  ctx->delta_stats.num_wr++;
+  ctx->delta_stats.num_wr_kb += shift_round_up(obs.oi.size, 10);
+
+  osd->logger->inc(l_osd_copyfrom);
+}
+
+void PrimaryLogPG::finish_promote(int r, CopyResults *results,
+				  ObjectContextRef obc)
+{
+  const hobject_t& soid = obc->obs.oi.soid;
+  dout(10) << __func__ << " " << soid << " r=" << r
+	   << " uv" << results->user_version << dendl;
+
+  if (r == -ECANCELED) {
+    return;
+  }
+
+  if (r != -ENOENT && soid.is_snap()) {
+    if (results->snaps.empty()) {
+      // we must have read "snap" content from the head object in the
+      // base pool.  use snap_seq to construct what snaps should be
+      // for this clone (what is was before we evicted the clean clone
+      // from this pool, and what it will be when we flush and the
+      // clone eventually happens in the base pool).  we want to use
+      // snaps in (results->snap_seq,soid.snap]
+      SnapSet& snapset = obc->ssc->snapset;
+      for (auto p = snapset.clone_snaps.rbegin();
+	   p != snapset.clone_snaps.rend();
+	   ++p) {
+	for (auto snap : p->second) {
+	  if (snap > soid.snap) {
+	    continue;
+	  }
+	  if (snap <= results->snap_seq) {
+	    break;
+	  }
+	  results->snaps.push_back(snap);
+	}
+      }
+    }
+
+    dout(20) << __func__ << " snaps " << results->snaps << dendl;
+    filter_snapc(results->snaps);
+
+    dout(20) << __func__ << " filtered snaps " << results->snaps << dendl;
+    if (results->snaps.empty()) {
+      dout(20) << __func__
+	       << " snaps are empty, clone is invalid,"
+	       << " setting r to ENOENT" << dendl;
+      r = -ENOENT;
+    }
+  }
+
+  if (r < 0 && results->started_temp_obj) {
+    dout(10) << __func__ << " abort; will clean up partial work" << dendl;
+    ObjectContextRef tempobc = get_object_context(results->temp_oid, false);
+    ceph_assert(tempobc);
+    OpContextUPtr ctx = simple_opc_create(tempobc);
+    ctx->op_t->remove(results->temp_oid);
+    simple_opc_submit(std::move(ctx));
+    results->started_temp_obj = false;
+  }
+
+  if (r == -ENOENT && soid.is_snap()) {
+    dout(10) << __func__
+	     << ": enoent while trying to promote clone, " << soid
+	     << " must have been trimmed, removing from snapset"
+	     << dendl;
+    hobject_t head(soid.get_head());
+    ObjectContextRef obc = get_object_context(head, false);
+    ceph_assert(obc);
+
+    OpContextUPtr tctx = simple_opc_create(obc);
+    tctx->at_version = get_next_version();
+    if (get_osdmap()->require_osd_release < ceph_release_t::octopus) {
+      filter_snapc(tctx->new_snapset.snaps);
+    } else {
+      tctx->new_snapset.snaps.clear();
+    }
+    vector<snapid_t> new_clones;
+    map<snapid_t, vector<snapid_t>> new_clone_snaps;
+    for (vector<snapid_t>::iterator i = tctx->new_snapset.clones.begin();
+	 i != tctx->new_snapset.clones.end();
+	 ++i) {
+      if (*i != soid.snap) {
+	new_clones.push_back(*i);
+	auto p = tctx->new_snapset.clone_snaps.find(*i);
+	if (p != tctx->new_snapset.clone_snaps.end()) {
+	  new_clone_snaps[*i] = p->second;
+	}
+      }
+    }
+    tctx->new_snapset.clones.swap(new_clones);
+    tctx->new_snapset.clone_overlap.erase(soid.snap);
+    tctx->new_snapset.clone_size.erase(soid.snap);
+    tctx->new_snapset.clone_snaps.swap(new_clone_snaps);
+
+    // take RWWRITE lock for duration of our local write.  ignore starvation.
+    if (!tctx->lock_manager.take_write_lock(
+	  head,
+	  obc)) {
+      ceph_abort_msg("problem!");
+    }
+    dout(20) << __func__ << " took lock on obc, " << obc->rwstate << dendl;
+
+    finish_ctx(tctx.get(), pg_log_entry_t::PROMOTE);
+
+    simple_opc_submit(std::move(tctx));
+    return;
+  }
+
+  bool whiteout = false;
+  if (r == -ENOENT) {
+    ceph_assert(soid.snap == CEPH_NOSNAP); // snap case is above
+    dout(10) << __func__ << " whiteout " << soid << dendl;
+    whiteout = true;
+  }
+
+  if (r < 0 && !whiteout) {
+    derr << __func__ << " unexpected promote error " << cpp_strerror(r) << dendl;
+    // pass error to everyone blocked on this object
+    // FIXME: this is pretty sloppy, but at this point we got
+    // something unexpected and don't have many other options.
+    map<hobject_t,list<OpRequestRef>>::iterator blocked_iter =
+      waiting_for_blocked_object.find(soid);
+    if (blocked_iter != waiting_for_blocked_object.end()) {
+      while (!blocked_iter->second.empty()) {
+	osd->reply_op_error(blocked_iter->second.front(), r);
+	blocked_iter->second.pop_front();
+      }
+      waiting_for_blocked_object.erase(blocked_iter);
+    }
+    return;
+  }
+
+  osd->promote_finish(results->object_size);
+
+  OpContextUPtr tctx =  simple_opc_create(obc);
+  tctx->at_version = get_next_version();
+
+  if (!obc->obs.oi.has_manifest()) {
+    ++tctx->delta_stats.num_objects;
+  }
+  if (soid.snap < CEPH_NOSNAP)
+    ++tctx->delta_stats.num_object_clones;
+  tctx->new_obs.exists = true;
+
+  tctx->extra_reqids = results->reqids;
+  tctx->extra_reqid_return_codes = results->reqid_return_codes;
+
+  if (obc->obs.oi.has_manifest() && obc->obs.oi.manifest.is_redirect()) {
+    tctx->new_obs.oi.manifest.type = object_manifest_t::TYPE_NONE;
+    tctx->new_obs.oi.clear_flag(object_info_t::FLAG_REDIRECT_HAS_REFERENCE);
+    tctx->new_obs.oi.clear_flag(object_info_t::FLAG_MANIFEST);
+    tctx->new_obs.oi.manifest.redirect_target = hobject_t();
+    tctx->delta_stats.num_objects_manifest--;
+    if (obc->obs.oi.test_flag(object_info_t::FLAG_REDIRECT_HAS_REFERENCE)) {
+      dec_all_refcount_manifest(obc->obs.oi, tctx.get());
+    }
+  }
+
+  if (whiteout) {
+    // create a whiteout
+    tctx->op_t->create(soid);
+    tctx->new_obs.oi.set_flag(object_info_t::FLAG_WHITEOUT);
+    ++tctx->delta_stats.num_whiteouts;
+    dout(20) << __func__ << " creating whiteout on " << soid << dendl;
+    osd->logger->inc(l_osd_tier_whiteout);
+  } else {
+    if (results->has_omap) {
+      dout(10) << __func__ << " setting omap flag on " << soid << dendl;
+      tctx->new_obs.oi.set_flag(object_info_t::FLAG_OMAP);
+      ++tctx->delta_stats.num_objects_omap;
+    }
+
+    results->fill_in_final_tx(tctx->op_t.get());
+    if (results->started_temp_obj) {
+      tctx->discard_temp_oid = results->temp_oid;
+    }
+    tctx->new_obs.oi.size = results->object_size;
+    tctx->new_obs.oi.user_version = results->user_version;
+    tctx->new_obs.oi.mtime = ceph::real_clock::to_timespec(results->mtime);
+    tctx->mtime = utime_t();
+    if (results->is_data_digest()) {
+      tctx->new_obs.oi.set_data_digest(results->data_digest);
+    } else {
+      tctx->new_obs.oi.clear_data_digest();
+    }
+    if (results->object_size)
+      tctx->clean_regions.mark_data_region_dirty(0, results->object_size);
+    if (results->is_omap_digest()) {
+      tctx->new_obs.oi.set_omap_digest(results->omap_digest);
+    } else {
+      tctx->new_obs.oi.clear_omap_digest();
+    }
+    if (results->has_omap)
+        tctx->clean_regions.mark_omap_dirty();
+    tctx->new_obs.oi.truncate_seq = results->truncate_seq;
+    tctx->new_obs.oi.truncate_size = results->truncate_size;
+
+    if (soid.snap != CEPH_NOSNAP) {
+      ceph_assert(obc->ssc->snapset.clone_snaps.count(soid.snap));
+      ceph_assert(obc->ssc->snapset.clone_size.count(soid.snap));
+      ceph_assert(obc->ssc->snapset.clone_size[soid.snap] ==
+	     results->object_size);
+      ceph_assert(obc->ssc->snapset.clone_overlap.count(soid.snap));
+
+      tctx->delta_stats.num_bytes += obc->ssc->snapset.get_clone_bytes(soid.snap);
+    } else {
+      tctx->delta_stats.num_bytes += results->object_size;
+    }
+  }
+
+  if (results->mirror_snapset) {
+    ceph_assert(tctx->new_obs.oi.soid.snap == CEPH_NOSNAP);
+    tctx->new_snapset.from_snap_set(
+      results->snapset,
+      get_osdmap()->require_osd_release < ceph_release_t::luminous);
+  }
+  dout(20) << __func__ << " new_snapset " << tctx->new_snapset << dendl;
+
+  // take RWWRITE lock for duration of our local write.  ignore starvation.
+  if (!tctx->lock_manager.take_write_lock(
+	obc->obs.oi.soid,
+	obc)) {
+    ceph_abort_msg("problem!");
+  }
+  dout(20) << __func__ << " took lock on obc, " << obc->rwstate << dendl;
+
+  finish_ctx(tctx.get(), pg_log_entry_t::PROMOTE);
+
+  simple_opc_submit(std::move(tctx));
+
+  osd->logger->inc(l_osd_tier_promote);
+
+  if (agent_state &&
+      agent_state->is_idle())
+    agent_choose_mode();
+}
+
+void PrimaryLogPG::finish_promote_manifest(int r, CopyResults *results,
+					    ObjectContextRef obc)
+{
+  const hobject_t& soid = obc->obs.oi.soid;
+  dout(10) << __func__ << " " << soid << " r=" << r
+	   << " uv" << results->user_version << dendl;
+
+  if (r == -ECANCELED || r == -EAGAIN) {
+    return;
+  }
+
+  if (r < 0) {
+    derr << __func__ << " unexpected promote error " << cpp_strerror(r) << dendl;
+    // pass error to everyone blocked on this object
+    // FIXME: this is pretty sloppy, but at this point we got
+    // something unexpected and don't have many other options.
+    map<hobject_t,list<OpRequestRef>>::iterator blocked_iter =
+      waiting_for_blocked_object.find(soid);
+    if (blocked_iter != waiting_for_blocked_object.end()) {
+      while (!blocked_iter->second.empty()) {
+	osd->reply_op_error(blocked_iter->second.front(), r);
+	blocked_iter->second.pop_front();
+      }
+      waiting_for_blocked_object.erase(blocked_iter);
+    }
+    return;
+  }
+
+  osd->promote_finish(results->object_size);
+  osd->logger->inc(l_osd_tier_promote);
+
+  if (agent_state &&
+      agent_state->is_idle())
+    agent_choose_mode();
+}
+
+void PrimaryLogPG::cancel_copy(CopyOpRef cop, bool requeue,
+			       vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << " " << cop->obc->obs.oi.soid
+	   << " from " << cop->src << " " << cop->oloc
+	   << " v" << cop->results.user_version << dendl;
+
+  // cancel objecter op, if we can
+  if (cop->objecter_tid) {
+    tids->push_back(cop->objecter_tid);
+    cop->objecter_tid = 0;
+    if (cop->objecter_tid2) {
+      tids->push_back(cop->objecter_tid2);
+      cop->objecter_tid2 = 0;
+    }
+  }
+
+  copy_ops.erase(cop->obc->obs.oi.soid);
+  cop->obc->stop_block();
+
+  kick_object_context_blocked(cop->obc);
+  cop->results.should_requeue = requeue;
+  CopyCallbackResults result(-ECANCELED, &cop->results);
+  cop->cb->complete(result);
+
+  // There may still be an objecter callback referencing this copy op.
+  // That callback will not need the obc since it's been canceled, and
+  // we need the obc reference to go away prior to flush.
+  cop->obc = ObjectContextRef();
+}
+
+void PrimaryLogPG::cancel_copy_ops(bool requeue, vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << dendl;
+  map<hobject_t,CopyOpRef>::iterator p = copy_ops.begin();
+  while (p != copy_ops.end()) {
+    // requeue this op? can I queue up all of them?
+    cancel_copy((p++)->second, requeue, tids);
+  }
+}
+
+
+// ========================================================================
+// flush
+//
+// Flush a dirty object in the cache tier by writing it back to the
+// base tier.  The sequence looks like:
+//
+//  * send a copy-from operation to the base tier to copy the current
+//    version of the object
+//  * base tier will pull the object via (perhaps multiple) copy-get(s)
+//  * on completion, we check if the object has been modified.  if so,
+//    just reply with -EAGAIN.
+//  * try to take a write lock so we can clear the dirty flag.  if this
+//    fails, wait and retry
+//  * start a repop that clears the bit.
+//
+// If we have to wait, we will retry by coming back through the
+// start_flush method.  We check if a flush is already in progress
+// and, if so, try to finish it by rechecking the version and trying
+// to clear the dirty bit.
+//
+// In order for the cache-flush (a write op) to not block the copy-get
+// from reading the object, the client *must* set the SKIPRWLOCKS
+// flag.
+//
+// NOTE: normally writes are strictly ordered for the client, but
+// flushes are special in that they can be reordered with respect to
+// other writes.  In particular, we can't have a flush request block
+// an update to the cache pool object!
+
+struct C_Flush : public Context {
+  PrimaryLogPGRef pg;
+  hobject_t oid;
+  epoch_t last_peering_reset;
+  ceph_tid_t tid;
+  utime_t start;
+  C_Flush(PrimaryLogPG *p, hobject_t o, epoch_t lpr)
+    : pg(p), oid(o), last_peering_reset(lpr),
+      tid(0), start(ceph_clock_now())
+  {}
+  void finish(int r) override {
+    if (r == -ECANCELED)
+      return;
+    std::scoped_lock locker{*pg};
+    if (last_peering_reset == pg->get_last_peering_reset()) {
+      pg->finish_flush(oid, tid, r);
+      pg->osd->logger->tinc(l_osd_tier_flush_lat, ceph_clock_now() - start);
+    }
+  }
+};
+
+int PrimaryLogPG::start_dedup(OpRequestRef op, ObjectContextRef obc)
+{
+  const object_info_t& oi = obc->obs.oi;
+  const hobject_t& soid = oi.soid;
+
+  ceph_assert(obc->is_blocked());
+  if (oi.size == 0) {
+    // evicted 
+    return 0;
+  }
+  if (pool.info.get_fingerprint_type() == pg_pool_t::TYPE_FINGERPRINT_NONE) {
+    dout(0) << " fingerprint algorithm is not set " << dendl;
+    return -EINVAL;
+  }
+  if (pool.info.get_dedup_tier() <= 0) {
+    dout(10) << " dedup tier is not set " << dendl;
+    return -EINVAL;
+  }
+
+  /*
+   * The operations to make dedup chunks are tracked by a ManifestOp.
+   * This op will be finished if all the operations are completed.
+   */
+  ManifestOpRef mop(std::make_shared<ManifestOp>(nullptr));
+
+  // cdc
+  std::map<uint64_t, bufferlist> chunks; 
+  int r = do_cdc(oi, mop->new_manifest.chunk_map, chunks);
+  if (r < 0) {
+    return r;
+  }
+  if (!chunks.size()) {
+    return 0;
+  }
+
+  // chunks issued here are different with chunk_map newly generated
+  // because the same chunks in previous snap will not be issued
+  // So, we need two data structures; the first is the issued chunk list to track
+  // issued operations, and the second is the new chunk_map to update chunk_map after 
+  // all operations are finished
+  object_ref_delta_t refs;
+  ObjectContextRef obc_l, obc_g;
+  get_adjacent_clones(obc, obc_l, obc_g);
+  // skip if the same content exits in prev snap at same offset
+  mop->new_manifest.calc_refs_to_inc_on_set(
+    obc_l ? &(obc_l->obs.oi.manifest) : nullptr,
+    obc_g ? &(obc_g->obs.oi.manifest) : nullptr,
+    refs);
+
+  for (auto p : chunks) {
+    hobject_t target = mop->new_manifest.chunk_map[p.first].oid;
+    if (refs.find(target) == refs.end()) {
+      continue;
+    }
+    C_SetDedupChunks *fin = new C_SetDedupChunks(this, soid, get_last_peering_reset(), p.first);
+    ceph_tid_t tid = refcount_manifest(soid, target, refcount_t::CREATE_OR_GET_REF, 
+			    fin, move(chunks[p.first]));
+    mop->chunks[target] = make_pair(p.first, p.second.length());
+    mop->num_chunks++;
+    mop->tids[p.first] = tid;
+    fin->tid = tid;
+    dout(10) << __func__ << " oid: " << soid << " tid: " << tid
+	    << " target: " << target << " offset: " << p.first
+	    << " length: " << p.second.length() << dendl;
+  }
+
+  if (mop->tids.size()) {
+    manifest_ops[soid] = mop;
+    manifest_ops[soid]->op = op;
+  } else {
+    // size == 0
+    return 0;
+  }
+
+  return -EINPROGRESS;
+}
+
+int PrimaryLogPG::do_cdc(const object_info_t& oi, 
+			 std::map<uint64_t, chunk_info_t>& chunk_map,
+			 std::map<uint64_t, bufferlist>& chunks)
+{
+  string chunk_algo = pool.info.get_dedup_chunk_algorithm_name();
+  int64_t chunk_size = pool.info.get_dedup_cdc_chunk_size();
+  uint64_t total_length = 0;
+
+  std::unique_ptr<CDC> cdc = CDC::create(chunk_algo, cbits(chunk_size)-1);
+  if (!cdc) {
+    dout(0) << __func__ << " unrecognized chunk-algorithm " << dendl;
+    return -EINVAL;
+  }
+
+  bufferlist bl;
+  /**
+   * We disable EC pool as a base tier of distributed dedup.
+   * The reason why we disallow erasure code pool here is that the EC pool does not support objects_read_sync(). 
+   * Therefore, we should change the current implementation totally to make EC pool compatible. 
+   * As s result, we leave this as a future work.
+   */
+  int r = pgbackend->objects_read_sync(
+      oi.soid, 0, oi.size, 0, &bl);
+  if (r < 0) {
+    dout(0) << __func__ << " read fail " << oi.soid
+            << " len: " << oi.size << " r: " << r << dendl;
+    return r;
+  }
+  if (bl.length() != oi.size) {
+    dout(0) << __func__ << " bl.length: " << bl.length() << " != oi.size: "
+	    << oi.size << " during chunking " << dendl;
+    return -EIO;
+  }
+
+  dout(10) << __func__ << " oid: " << oi.soid << " len: " << bl.length() 
+	   << " oi.size: " << oi.size   
+	   << " chunk_size: " << chunk_size << dendl;
+
+  vector<pair<uint64_t, uint64_t>> cdc_chunks;
+  cdc->calc_chunks(bl, &cdc_chunks);
+
+  // get fingerprint 
+  for (auto p : cdc_chunks) {
+    bufferlist chunk;
+    chunk.substr_of(bl, p.first, p.second);
+    auto [ret, target] = get_fpoid_from_chunk(oi.soid, chunk);
+    if (ret < 0) {
+      return ret;
+    }
+    chunks[p.first] = std::move(chunk);
+    chunk_map[p.first] = chunk_info_t(0, p.second, target);
+    total_length += p.second;
+  }
+  return total_length;
+}
+
+std::pair<int, hobject_t> PrimaryLogPG::get_fpoid_from_chunk(
+  const hobject_t soid, bufferlist& chunk)
+{
+  pg_pool_t::fingerprint_t fp_algo = pool.info.get_fingerprint_type();
+  if (fp_algo == pg_pool_t::TYPE_FINGERPRINT_NONE) {
+    return make_pair(-EINVAL, hobject_t());
+  }
+  object_t fp_oid = [&fp_algo, &chunk]() -> string {
+    switch (fp_algo) {
+      case pg_pool_t::TYPE_FINGERPRINT_SHA1:
+	return ceph::crypto::digest<ceph::crypto::SHA1>(chunk).to_str();
+      case pg_pool_t::TYPE_FINGERPRINT_SHA256:
+	return ceph::crypto::digest<ceph::crypto::SHA256>(chunk).to_str();
+      case pg_pool_t::TYPE_FINGERPRINT_SHA512:
+	return ceph::crypto::digest<ceph::crypto::SHA512>(chunk).to_str();
+      default:
+	assert(0 == "unrecognized fingerprint type");
+	return {};
+    }
+  }();    
+
+  pg_t raw_pg;
+  object_locator_t oloc(soid);
+  oloc.pool = pool.info.get_dedup_tier();
+  // check if dedup_tier isn't set
+  ceph_assert(oloc.pool > 0);
+  int ret = get_osdmap()->object_locator_to_pg(fp_oid, oloc, raw_pg);
+  if (ret < 0) {
+    return make_pair(ret, hobject_t());
+  }
+  hobject_t target(fp_oid, oloc.key, snapid_t(),
+		    raw_pg.ps(), raw_pg.pool(),
+		    oloc.nspace);
+  return make_pair(0, target);
+}
+
+int PrimaryLogPG::finish_set_dedup(hobject_t oid, int r, ceph_tid_t tid, uint64_t offset)
+{
+  dout(10) << __func__ << " " << oid << " tid " << tid
+	   << " " << cpp_strerror(r) << dendl;
+  map<hobject_t,ManifestOpRef>::iterator p = manifest_ops.find(oid);
+  if (p == manifest_ops.end()) {
+    dout(10) << __func__ << " no manifest_op found" << dendl;
+    return -EINVAL;
+  }
+  ManifestOpRef mop = p->second;
+  mop->results[offset] = r;
+  if (r < 0) {
+    // if any failure occurs, put a mark on the results to recognize the failure
+    mop->results[0] = r;
+  }
+  if (mop->num_chunks != mop->results.size()) {
+    // there are on-going works
+    return -EINPROGRESS;
+  }
+  ObjectContextRef obc = get_object_context(oid, false);
+  if (!obc) {
+    if (mop->op)
+      osd->reply_op_error(mop->op, -EINVAL);
+    return -EINVAL;
+  }
+  ceph_assert(obc->is_blocked());
+  obc->stop_block();
+  kick_object_context_blocked(obc);
+  if (mop->results[0] < 0) {
+    // check if the previous op returns fail
+    ceph_assert(mop->num_chunks == mop->results.size());
+    manifest_ops.erase(oid);
+    osd->reply_op_error(mop->op, mop->results[0]);
+    return -EIO;
+  }
+
+  if (mop->chunks.size()) {
+    OpContextUPtr ctx = simple_opc_create(obc);
+    ceph_assert(ctx);
+    if (ctx->lock_manager.get_lock_type(
+	  RWState::RWWRITE,
+	  oid,
+	  obc,
+	  mop->op)) {
+      dout(20) << __func__ << " took write lock" << dendl;
+    } else if (mop->op) {
+      dout(10) << __func__ << " waiting on write lock " << mop->op << dendl;
+      close_op_ctx(ctx.release());
+      return -EAGAIN;    
+    }
+
+    ctx->at_version = get_next_version();
+    ctx->new_obs = obc->obs;
+    ctx->new_obs.oi.clear_flag(object_info_t::FLAG_DIRTY);
+
+    /* 
+    * Let's assume that there is a manifest snapshotted object, and we issue tier_flush() to head.
+    * head: [0, 2) aaa <-- tier_flush()
+    * 20:   [0, 2) ddd, [6, 2) bbb, [8, 2) ccc
+    * 
+    * In this case, if the new chunk_map is as follows,
+    * new_chunk_map : [0, 2) ddd, [6, 2) bbb, [8, 2) ccc
+    * we should drop aaa from head by using calc_refs_to_drop_on_removal().
+    * So, the precedure is 
+    * 	1. calc_refs_to_drop_on_removal()
+    * 	2. register old references to drop after tier_flush() is committed
+    * 	3. update new chunk_map
+    */
+
+    ObjectCleanRegions c_regions = ctx->clean_regions;
+    ObjectContextRef cobc = get_prev_clone_obc(obc);
+    c_regions.mark_fully_dirty(); 
+    // CDC was done on entire range of manifest object,
+    // so the first thing we should do here is to drop the reference to old chunks
+    ObjectContextRef obc_l, obc_g;
+    get_adjacent_clones(obc, obc_l, obc_g);
+    // clear all old references
+    object_ref_delta_t refs;
+    ctx->obs->oi.manifest.calc_refs_to_drop_on_removal(
+      obc_l ? &(obc_l->obs.oi.manifest) : nullptr,
+      obc_g ? &(obc_g->obs.oi.manifest) : nullptr,
+      refs);
+    if (!refs.is_empty()) {
+      ctx->register_on_commit(
+        [oid, this, refs](){
+          dec_refcount(oid, refs);
+        });
+    }
+
+    // set new references
+    ctx->new_obs.oi.manifest.chunk_map = mop->new_manifest.chunk_map;
+
+    finish_ctx(ctx.get(), pg_log_entry_t::CLEAN);
+    simple_opc_submit(std::move(ctx));
+  }
+  if (mop->op)
+    osd->reply_op_error(mop->op, r);
+
+  manifest_ops.erase(oid);
+  return 0;
+}
+
+int PrimaryLogPG::start_flush(
+  OpRequestRef op, ObjectContextRef obc,
+  bool blocking, hobject_t *pmissing,
+  std::optional<std::function<void()>> &&on_flush)
+{
+  const object_info_t& oi = obc->obs.oi;
+  const hobject_t& soid = oi.soid;
+  dout(10) << __func__ << " " << soid
+	   << " v" << oi.version
+	   << " uv" << oi.user_version
+	   << " " << (blocking ? "blocking" : "non-blocking/best-effort")
+	   << dendl;
+
+  bool preoctopus_compat =
+    get_osdmap()->require_osd_release < ceph_release_t::octopus;
+  SnapSet snapset;
+  if (preoctopus_compat) {
+    // for pre-octopus compatibility, filter SnapSet::snaps.  not
+    // certain we need this, but let's be conservative.
+    snapset = obc->ssc->snapset.get_filtered(pool.info);
+  } else {
+    // NOTE: change this to a const ref when we remove this compat code
+    snapset = obc->ssc->snapset;
+  }
+
+  if (obc->obs.oi.has_manifest() && obc->obs.oi.manifest.is_chunked()) {
+    // current dedup tier only supports blocking operation
+    if (!blocking) {
+      return -EOPNOTSUPP;
+    }
+  }
+
+  // verify there are no (older) check for dirty clones
+  {
+    dout(20) << " snapset " << snapset << dendl;
+    vector<snapid_t>::reverse_iterator p = snapset.clones.rbegin();
+    while (p != snapset.clones.rend() && *p >= soid.snap)
+      ++p;
+    if (p != snapset.clones.rend()) {
+      hobject_t next = soid;
+      next.snap = *p;
+      ceph_assert(next.snap < soid.snap);
+      if (recovery_state.get_pg_log().get_missing().is_missing(next)) {
+	dout(10) << __func__ << " missing clone is " << next << dendl;
+	if (pmissing)
+	  *pmissing = next;
+	return -ENOENT;
+      }
+      ObjectContextRef older_obc = get_object_context(next, false);
+      if (older_obc) {
+	dout(20) << __func__ << " next oldest clone is " << older_obc->obs.oi
+		 << dendl;
+	if (older_obc->obs.oi.is_dirty()) {
+	  dout(10) << __func__ << " next oldest clone is dirty: "
+		   << older_obc->obs.oi << dendl;
+	  return -EBUSY;
+	}
+      } else {
+	dout(20) << __func__ << " next oldest clone " << next
+		 << " is not present; implicitly clean" << dendl;
+      }
+    } else {
+      dout(20) << __func__ << " no older clones" << dendl;
+    }
+  }
+
+  if (blocking)
+    obc->start_block();
+
+  map<hobject_t,FlushOpRef>::iterator p = flush_ops.find(soid);
+  if (p != flush_ops.end()) {
+    FlushOpRef fop = p->second;
+    if (fop->op == op) {
+      // we couldn't take the write lock on a cache-try-flush before;
+      // now we are trying again for the lock.
+      return try_flush_mark_clean(fop);
+    }
+    if (fop->flushed_version == obc->obs.oi.user_version &&
+	(fop->blocking || !blocking)) {
+      // nonblocking can join anything
+      // blocking can only join a blocking flush
+      dout(20) << __func__ << " piggybacking on existing flush " << dendl;
+      if (op)
+	fop->dup_ops.push_back(op);
+      return -EAGAIN;   // clean up this ctx; op will retry later
+    }
+
+    // cancel current flush since it will fail anyway, or because we
+    // are blocking and the existing flush is nonblocking.
+    dout(20) << __func__ << " canceling previous flush; it will fail" << dendl;
+    if (fop->op)
+      osd->reply_op_error(fop->op, -EBUSY);
+    while (!fop->dup_ops.empty()) {
+      osd->reply_op_error(fop->dup_ops.front(), -EBUSY);
+      fop->dup_ops.pop_front();
+    }
+    vector<ceph_tid_t> tids;
+    cancel_flush(fop, false, &tids);
+    osd->objecter->op_cancel(tids, -ECANCELED);
+  }
+
+  if (obc->obs.oi.has_manifest() && obc->obs.oi.manifest.is_chunked()) {
+    int r = start_dedup(op, obc);
+    if (r != -EINPROGRESS) {
+      if (blocking)
+	obc->stop_block();
+    }
+    return r;
+  }
+
+  /**
+   * In general, we need to send a delete and a copyfrom.
+   * Consider snapc 10:[10, 9, 8, 4, 3, 2]:[10(10, 9), 4(4,3,2)]
+   * where 4 is marked as clean.  To flush 10, we have to:
+   * 1) delete 4:[4,3,2] -- Logically, the object does not exist after 4
+   * 2) copyfrom 8:[8,4,3,2] -- flush object after snap 8
+   *
+   * There is a complicating case.  Supposed there had been a clone 7
+   * for snaps [7, 6] which has been trimmed since they no longer exist.
+   * In the base pool, we'd have 5:[4,3,2]:[4(4,3,2)]+head.  When we submit
+   * the delete, the snap will be promoted to 5, and the head will become
+   * a whiteout.  When the copy-from goes through, we'll end up with
+   * 8:[8,4,3,2]:[4(4,3,2)]+head.
+   *
+   * Another complication is the case where there is an interval change
+   * after doing the delete and the flush but before marking the object
+   * clean.  We'll happily delete head and then recreate it at the same
+   * sequence number, which works out ok.
+   */
+
+  SnapContext snapc, dsnapc;
+  if (snapset.seq != 0) {
+    if (soid.snap == CEPH_NOSNAP) {
+      snapc = snapset.get_ssc_as_of(snapset.seq);
+    } else {
+      snapid_t min_included_snap;
+      auto p = snapset.clone_snaps.find(soid.snap);
+      ceph_assert(p != snapset.clone_snaps.end());
+      min_included_snap = p->second.back();
+      snapc = snapset.get_ssc_as_of(min_included_snap - 1);
+    }
+
+    snapid_t prev_snapc = 0;
+    for (vector<snapid_t>::reverse_iterator citer = snapset.clones.rbegin();
+	 citer != snapset.clones.rend();
+	 ++citer) {
+      if (*citer < soid.snap) {
+	prev_snapc = *citer;
+	break;
+      }
+    }
+
+    dsnapc = snapset.get_ssc_as_of(prev_snapc);
+  }
+
+  object_locator_t base_oloc(soid);
+  base_oloc.pool = pool.info.tier_of;
+
+  if (dsnapc.seq < snapc.seq) {
+    ObjectOperation o;
+    o.remove();
+    osd->objecter->mutate(
+      soid.oid,
+      base_oloc,
+      o,
+      dsnapc,
+      ceph::real_clock::from_ceph_timespec(oi.mtime),
+      (CEPH_OSD_FLAG_IGNORE_OVERLAY |
+       CEPH_OSD_FLAG_ENFORCE_SNAPC),
+      NULL /* no callback, we'll rely on the ordering w.r.t the next op */);
+  }
+
+  FlushOpRef fop(std::make_shared<FlushOp>());
+  fop->obc = obc;
+  fop->flushed_version = oi.user_version;
+  fop->blocking = blocking;
+  fop->on_flush = std::move(on_flush);
+  fop->op = op;
+
+  ObjectOperation o;
+  if (oi.is_whiteout()) {
+    fop->removal = true;
+    o.remove();
+  } else {
+    object_locator_t oloc(soid);
+    o.copy_from(soid.oid.name, soid.snap, oloc, oi.user_version,
+		CEPH_OSD_COPY_FROM_FLAG_FLUSH |
+		CEPH_OSD_COPY_FROM_FLAG_IGNORE_OVERLAY |
+		CEPH_OSD_COPY_FROM_FLAG_IGNORE_CACHE |
+		CEPH_OSD_COPY_FROM_FLAG_MAP_SNAP_CLONE,
+		LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL|LIBRADOS_OP_FLAG_FADVISE_NOCACHE);
+
+    //mean the base tier don't cache data after this
+    if (agent_state && agent_state->evict_mode != TierAgentState::EVICT_MODE_FULL)
+      o.set_last_op_flags(LIBRADOS_OP_FLAG_FADVISE_DONTNEED);
+  }
+  C_Flush *fin = new C_Flush(this, soid, get_last_peering_reset());
+
+  ceph_tid_t tid = osd->objecter->mutate(
+    soid.oid, base_oloc, o, snapc,
+    ceph::real_clock::from_ceph_timespec(oi.mtime),
+    CEPH_OSD_FLAG_IGNORE_OVERLAY | CEPH_OSD_FLAG_ENFORCE_SNAPC,
+    new C_OnFinisher(fin,
+		     osd->get_objecter_finisher(get_pg_shard())));
+  /* we're under the pg lock and fin->finish() is grabbing that */
+  fin->tid = tid;
+  fop->objecter_tid = tid;
+
+  flush_ops[soid] = fop;
+
+  recovery_state.update_stats(
+    [&oi](auto &history, auto &stats) {
+      stats.stats.sum.num_flush++;
+      stats.stats.sum.num_flush_kb += shift_round_up(oi.size, 10);
+      return false;
+    });
+  return -EINPROGRESS;
+}
+
+void PrimaryLogPG::finish_flush(hobject_t oid, ceph_tid_t tid, int r)
+{
+  dout(10) << __func__ << " " << oid << " tid " << tid
+	   << " " << cpp_strerror(r) << dendl;
+  map<hobject_t,FlushOpRef>::iterator p = flush_ops.find(oid);
+  if (p == flush_ops.end()) {
+    dout(10) << __func__ << " no flush_op found" << dendl;
+    return;
+  }
+  FlushOpRef fop = p->second;
+  if (tid != fop->objecter_tid && !fop->obc->obs.oi.has_manifest()) {
+    dout(10) << __func__ << " tid " << tid << " != fop " << fop
+	     << " tid " << fop->objecter_tid << dendl;
+    return;
+  }
+  ObjectContextRef obc = fop->obc;
+  fop->objecter_tid = 0;
+
+  if (r < 0 && !(r == -ENOENT && fop->removal)) {
+    if (fop->op)
+      osd->reply_op_error(fop->op, -EBUSY);
+    if (fop->blocking) {
+      obc->stop_block();
+      kick_object_context_blocked(obc);
+    }
+
+    if (!fop->dup_ops.empty()) {
+      dout(20) << __func__ << " requeueing dups" << dendl;
+      requeue_ops(fop->dup_ops);
+    }
+    if (fop->on_flush) {
+      (*(fop->on_flush))();
+      fop->on_flush = std::nullopt;
+    }
+    flush_ops.erase(oid);
+    return;
+  }
+
+  r = try_flush_mark_clean(fop);
+  if (r == -EBUSY && fop->op) {
+    osd->reply_op_error(fop->op, r);
+  }
+}
+
+int PrimaryLogPG::try_flush_mark_clean(FlushOpRef fop)
+{
+  ObjectContextRef obc = fop->obc;
+  const hobject_t& oid = obc->obs.oi.soid;
+
+  if (fop->blocking) {
+    obc->stop_block();
+    kick_object_context_blocked(obc);
+  }
+
+  if (fop->flushed_version != obc->obs.oi.user_version ||
+      !obc->obs.exists) {
+    if (obc->obs.exists)
+      dout(10) << __func__ << " flushed_version " << fop->flushed_version
+	       << " != current " << obc->obs.oi.user_version
+	       << dendl;
+    else
+      dout(10) << __func__ << " object no longer exists" << dendl;
+
+    if (!fop->dup_ops.empty()) {
+      dout(20) << __func__ << " requeueing dups" << dendl;
+      requeue_ops(fop->dup_ops);
+    }
+    if (fop->on_flush) {
+      (*(fop->on_flush))();
+      fop->on_flush = std::nullopt;
+    }
+    flush_ops.erase(oid);
+    if (fop->blocking)
+      osd->logger->inc(l_osd_tier_flush_fail);
+    else
+      osd->logger->inc(l_osd_tier_try_flush_fail);
+    return -EBUSY;
+  }
+
+  if (!fop->blocking &&
+      m_scrubber->write_blocked_by_scrub(oid)) {
+    if (fop->op) {
+      dout(10) << __func__ << " blocked by scrub" << dendl;
+      requeue_op(fop->op);
+      requeue_ops(fop->dup_ops);
+      return -EAGAIN;    // will retry
+    } else {
+      osd->logger->inc(l_osd_tier_try_flush_fail);
+      vector<ceph_tid_t> tids;
+      cancel_flush(fop, false, &tids);
+      osd->objecter->op_cancel(tids, -ECANCELED);
+      return -ECANCELED;
+    }
+  }
+
+  // successfully flushed, can we evict this object?
+  if (!obc->obs.oi.has_manifest() && !fop->op &&
+      agent_state && agent_state->evict_mode != TierAgentState::EVICT_MODE_IDLE &&
+      agent_maybe_evict(obc, true)) {
+    osd->logger->inc(l_osd_tier_clean);
+    if (fop->on_flush) {
+      (*(fop->on_flush))();
+      fop->on_flush = std::nullopt;
+    }
+    flush_ops.erase(oid);
+    return 0;
+  }
+
+  dout(10) << __func__ << " clearing DIRTY flag for " << oid << dendl;
+  OpContextUPtr ctx = simple_opc_create(fop->obc);
+
+  // successfully flushed; can we clear the dirty bit?
+  // try to take the lock manually, since we don't
+  // have a ctx yet.
+  if (ctx->lock_manager.get_lock_type(
+	RWState::RWWRITE,
+	oid,
+	obc,
+	fop->op)) {
+    dout(20) << __func__ << " took write lock" << dendl;
+  } else if (fop->op) {
+    dout(10) << __func__ << " waiting on write lock " << fop->op << " "
+	     << fop->dup_ops << dendl;
+    // fop->op is now waiting on the lock; get fop->dup_ops to wait too.
+    for (auto op : fop->dup_ops) {
+      bool locked = ctx->lock_manager.get_lock_type(
+	RWState::RWWRITE,
+	oid,
+	obc,
+	op);
+      ceph_assert(!locked);
+    }
+    close_op_ctx(ctx.release());
+    return -EAGAIN;    // will retry
+  } else {
+    dout(10) << __func__ << " failed write lock, no op; failing" << dendl;
+    close_op_ctx(ctx.release());
+    osd->logger->inc(l_osd_tier_try_flush_fail);
+    vector<ceph_tid_t> tids;
+    cancel_flush(fop, false, &tids);
+    osd->objecter->op_cancel(tids, -ECANCELED);
+    return -ECANCELED;
+  }
+
+  if (fop->on_flush) {
+    ctx->register_on_finish(*(fop->on_flush));
+    fop->on_flush = std::nullopt;
+  }
+
+  ctx->at_version = get_next_version();
+
+  ctx->new_obs = obc->obs;
+  ctx->new_obs.oi.clear_flag(object_info_t::FLAG_DIRTY);
+  --ctx->delta_stats.num_objects_dirty;
+  if (fop->obc->obs.oi.has_manifest()) {
+    ceph_assert(obc->obs.oi.manifest.is_chunked());
+    PGTransaction* t = ctx->op_t.get();
+    uint64_t chunks_size = 0;
+    for (auto &p : ctx->new_obs.oi.manifest.chunk_map) {
+      chunks_size += p.second.length;
+    }
+    if (ctx->new_obs.oi.is_omap() && pool.info.supports_omap()) {
+      t->omap_clear(oid);
+      ctx->new_obs.oi.clear_omap_digest();
+      ctx->new_obs.oi.clear_flag(object_info_t::FLAG_OMAP);
+      ctx->clean_regions.mark_omap_dirty();
+    }
+    if (obc->obs.oi.size == chunks_size) {
+      t->truncate(oid, 0);
+      interval_set<uint64_t> trim;
+      trim.insert(0, ctx->new_obs.oi.size);
+      ctx->modified_ranges.union_of(trim);
+      truncate_update_size_and_usage(ctx->delta_stats,
+				     ctx->new_obs.oi,
+				     0);
+      ctx->clean_regions.mark_data_region_dirty(0, ctx->new_obs.oi.size);
+      ctx->new_obs.oi.new_object();
+      for (auto &p : ctx->new_obs.oi.manifest.chunk_map) {
+	p.second.set_flag(chunk_info_t::FLAG_MISSING);
+      }
+    } else {
+      for (auto &p : ctx->new_obs.oi.manifest.chunk_map) {
+	dout(20) << __func__ << " offset: " << p.second.offset
+		<< " length: " << p.second.length << dendl;
+	p.second.clear_flag(chunk_info_t::FLAG_MISSING); // CLEAN
+      }
+    }
+  }
+
+  finish_ctx(ctx.get(), pg_log_entry_t::CLEAN);
+
+  osd->logger->inc(l_osd_tier_clean);
+
+  if (!fop->dup_ops.empty() || fop->op) {
+    dout(20) << __func__ << " requeueing for " << ctx->at_version << dendl;
+    list<OpRequestRef> ls;
+    if (fop->op)
+      ls.push_back(fop->op);
+    ls.splice(ls.end(), fop->dup_ops);
+    requeue_ops(ls);
+  }
+
+  simple_opc_submit(std::move(ctx));
+
+  flush_ops.erase(oid);
+
+  if (fop->blocking)
+    osd->logger->inc(l_osd_tier_flush);
+  else
+    osd->logger->inc(l_osd_tier_try_flush);
+
+  return -EINPROGRESS;
+}
+
+void PrimaryLogPG::cancel_flush(FlushOpRef fop, bool requeue,
+				vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << " " << fop->obc->obs.oi.soid << " tid "
+	   << fop->objecter_tid << dendl;
+  if (fop->objecter_tid) {
+    tids->push_back(fop->objecter_tid);
+    fop->objecter_tid = 0;
+  }
+  if (fop->io_tids.size()) {
+    for (auto &p : fop->io_tids) {
+      tids->push_back(p.second);
+      p.second = 0;
+    }
+  }
+  if (fop->blocking && fop->obc->is_blocked()) {
+    fop->obc->stop_block();
+    kick_object_context_blocked(fop->obc);
+  }
+  if (requeue) {
+    if (fop->op)
+      requeue_op(fop->op);
+    requeue_ops(fop->dup_ops);
+  }
+  if (fop->on_flush) {
+    (*(fop->on_flush))();
+    fop->on_flush = std::nullopt;
+  }
+  flush_ops.erase(fop->obc->obs.oi.soid);
+}
+
+void PrimaryLogPG::cancel_flush_ops(bool requeue, vector<ceph_tid_t> *tids)
+{
+  dout(10) << __func__ << dendl;
+  map<hobject_t,FlushOpRef>::iterator p = flush_ops.begin();
+  while (p != flush_ops.end()) {
+    cancel_flush((p++)->second, requeue, tids);
+  }
+}
+
+bool PrimaryLogPG::is_present_clone(hobject_t coid)
+{
+  if (!pool.info.allow_incomplete_clones())
+    return true;
+  if (is_missing_object(coid))
+    return true;
+  ObjectContextRef obc = get_object_context(coid, false);
+  return obc && obc->obs.exists;
+}
+
+// ========================================================================
+// rep op gather
+
+class C_OSD_RepopCommit : public Context {
+  PrimaryLogPGRef pg;
+  boost::intrusive_ptr<PrimaryLogPG::RepGather> repop;
+public:
+  C_OSD_RepopCommit(PrimaryLogPG *pg, PrimaryLogPG::RepGather *repop)
+    : pg(pg), repop(repop) {}
+  void finish(int) override {
+    pg->repop_all_committed(repop.get());
+  }
+};
+
+void PrimaryLogPG::repop_all_committed(RepGather *repop)
+{
+  dout(10) << __func__ << ": repop tid " << repop->rep_tid << " all committed "
+	   << dendl;
+  repop->all_committed = true;
+  if (!repop->rep_aborted) {
+    if (repop->v != eversion_t()) {
+      recovery_state.complete_write(repop->v, repop->pg_local_last_complete);
+    }
+    eval_repop(repop);
+  }
+}
+
+void PrimaryLogPG::op_applied(const eversion_t &applied_version)
+{
+  dout(10) << "op_applied version " << applied_version << dendl;
+  ceph_assert(applied_version != eversion_t());
+  ceph_assert(applied_version <= info.last_update);
+  recovery_state.local_write_applied(applied_version);
+
+  if (is_primary() && m_scrubber) {
+    // if there's a scrub operation waiting for the selected chunk to be fully updated -
+    // allow it to continue
+    m_scrubber->on_applied_when_primary(recovery_state.get_last_update_applied());
+  }
+}
+
+void PrimaryLogPG::eval_repop(RepGather *repop)
+{
+  #ifdef HAVE_JAEGER
+  if (repop->op->osd_parent_span) {
+    auto eval_span = jaeger_tracing::child_span(__func__, repop->op->osd_parent_span);
+  }
+ #endif
+  dout(10) << "eval_repop " << *repop
+    << (repop->op && repop->op->get_req<MOSDOp>() ? "" : " (no op)") << dendl;
+
+  // ondisk?
+  if (repop->all_committed) {
+    dout(10) << " commit: " << *repop << dendl;
+    for (auto p = repop->on_committed.begin();
+	 p != repop->on_committed.end();
+	 repop->on_committed.erase(p++)) {
+      (*p)();
+    }
+    // send dup commits, in order
+    auto it = waiting_for_ondisk.find(repop->v);
+    if (it != waiting_for_ondisk.end()) {
+      ceph_assert(waiting_for_ondisk.begin()->first == repop->v);
+      for (auto& i : it->second) {
+        int return_code = repop->r;
+        if (return_code >= 0) {
+          return_code = std::get<2>(i);
+        }
+        osd->reply_op_error(std::get<0>(i), return_code, repop->v,
+                            std::get<1>(i), std::get<3>(i));
+      }
+      waiting_for_ondisk.erase(it);
+    }
+
+    publish_stats_to_osd();
+
+    dout(10) << " removing " << *repop << dendl;
+    ceph_assert(!repop_queue.empty());
+    dout(20) << "   q front is " << *repop_queue.front() << dendl;
+    if (repop_queue.front() == repop) {
+      RepGather *to_remove = nullptr;
+      while (!repop_queue.empty() &&
+	     (to_remove = repop_queue.front())->all_committed) {
+	repop_queue.pop_front();
+	for (auto p = to_remove->on_success.begin();
+	     p != to_remove->on_success.end();
+	     to_remove->on_success.erase(p++)) {
+	  (*p)();
+	}
+	remove_repop(to_remove);
+      }
+    }
+  }
+}
+
+void PrimaryLogPG::issue_repop(RepGather *repop, OpContext *ctx)
+{
+  FUNCTRACE(cct);
+  const hobject_t& soid = ctx->obs->oi.soid;
+  dout(7) << "issue_repop rep_tid " << repop->rep_tid
+          << " o " << soid
+          << dendl;
+#ifdef HAVE_JAEGER
+  if (ctx->op->osd_parent_span) {
+    auto issue_repop_span = jaeger_tracing::child_span(__func__, ctx->op->osd_parent_span);
+  }
+#endif
+
+  repop->v = ctx->at_version;
+
+  ctx->op_t->add_obc(ctx->obc);
+  if (ctx->clone_obc) {
+    ctx->op_t->add_obc(ctx->clone_obc);
+  }
+  if (ctx->head_obc) {
+    ctx->op_t->add_obc(ctx->head_obc);
+  }
+
+  Context *on_all_commit = new C_OSD_RepopCommit(this, repop);
+  if (!(ctx->log.empty())) {
+    ceph_assert(ctx->at_version >= projected_last_update);
+    projected_last_update = ctx->at_version;
+  }
+  for (auto &&entry: ctx->log) {
+    projected_log.add(entry);
+  }
+
+  recovery_state.pre_submit_op(
+    soid,
+    ctx->log,
+    ctx->at_version);
+  pgbackend->submit_transaction(
+    soid,
+    ctx->delta_stats,
+    ctx->at_version,
+    std::move(ctx->op_t),
+    recovery_state.get_pg_trim_to(),
+    recovery_state.get_min_last_complete_ondisk(),
+    std::move(ctx->log),
+    ctx->updated_hset_history,
+    on_all_commit,
+    repop->rep_tid,
+    ctx->reqid,
+    ctx->op);
+}
+
+PrimaryLogPG::RepGather *PrimaryLogPG::new_repop(
+  OpContext *ctx, ObjectContextRef obc,
+  ceph_tid_t rep_tid)
+{
+  if (ctx->op)
+    dout(10) << "new_repop rep_tid " << rep_tid << " on " << *ctx->op->get_req() << dendl;
+  else
+    dout(10) << "new_repop rep_tid " << rep_tid << " (no op)" << dendl;
+
+  RepGather *repop = new RepGather(
+    ctx, rep_tid, info.last_complete);
+
+  repop->start = ceph_clock_now();
+
+  repop_queue.push_back(&repop->queue_item);
+  repop->get();
+
+  osd->logger->inc(l_osd_op_wip);
+
+  dout(10) << __func__ << ": " << *repop << dendl;
+  return repop;
+}
+
+boost::intrusive_ptr<PrimaryLogPG::RepGather> PrimaryLogPG::new_repop(
+  eversion_t version,
+  int r,
+  ObcLockManager &&manager,
+  OpRequestRef &&op,
+  std::optional<std::function<void(void)> > &&on_complete)
+{
+  RepGather *repop = new RepGather(
+    std::move(manager),
+    std::move(op),
+    std::move(on_complete),
+    osd->get_tid(),
+    info.last_complete,
+    r);
+  repop->v = version;
+
+  repop->start = ceph_clock_now();
+
+  repop_queue.push_back(&repop->queue_item);
+
+  osd->logger->inc(l_osd_op_wip);
+
+  dout(10) << __func__ << ": " << *repop << dendl;
+  return boost::intrusive_ptr<RepGather>(repop);
+}
+
+void PrimaryLogPG::remove_repop(RepGather *repop)
+{
+  dout(20) << __func__ << " " << *repop << dendl;
+
+  for (auto p = repop->on_finish.begin();
+       p != repop->on_finish.end();
+       repop->on_finish.erase(p++)) {
+    (*p)();
+  }
+
+  release_object_locks(
+    repop->lock_manager);
+  repop->put();
+
+  osd->logger->dec(l_osd_op_wip);
+}
+
+PrimaryLogPG::OpContextUPtr PrimaryLogPG::simple_opc_create(ObjectContextRef obc)
+{
+  dout(20) << __func__ << " " << obc->obs.oi.soid << dendl;
+  ceph_tid_t rep_tid = osd->get_tid();
+  osd_reqid_t reqid(osd->get_cluster_msgr_name(), 0, rep_tid);
+  OpContextUPtr ctx(new OpContext(OpRequestRef(), reqid, nullptr, obc, this));
+  ctx->op_t.reset(new PGTransaction());
+  ctx->mtime = ceph_clock_now();
+  return ctx;
+}
+
+void PrimaryLogPG::simple_opc_submit(OpContextUPtr ctx)
+{
+  RepGather *repop = new_repop(ctx.get(), ctx->obc, ctx->reqid.tid);
+  dout(20) << __func__ << " " << repop << dendl;
+  issue_repop(repop, ctx.get());
+  eval_repop(repop);
+  recovery_state.update_trim_to();
+  repop->put();
+}
+
+
+void PrimaryLogPG::submit_log_entries(
+  const mempool::osd_pglog::list<pg_log_entry_t> &entries,
+  ObcLockManager &&manager,
+  std::optional<std::function<void(void)> > &&_on_complete,
+  OpRequestRef op,
+  int r)
+{
+  dout(10) << __func__ << " " << entries << dendl;
+  ceph_assert(is_primary());
+
+  eversion_t version;
+  if (!entries.empty()) {
+    ceph_assert(entries.rbegin()->version >= projected_last_update);
+    version = projected_last_update = entries.rbegin()->version;
+  }
+
+  boost::intrusive_ptr<RepGather> repop;
+  std::optional<std::function<void(void)> > on_complete;
+  if (get_osdmap()->require_osd_release >= ceph_release_t::jewel) {
+    repop = new_repop(
+      version,
+      r,
+      std::move(manager),
+      std::move(op),
+      std::move(_on_complete));
+  } else {
+    on_complete = std::move(_on_complete);
+  }
+
+  pgbackend->call_write_ordered(
+    [this, entries, repop, on_complete]() {
+      ObjectStore::Transaction t;
+      eversion_t old_last_update = info.last_update;
+      recovery_state.merge_new_log_entries(
+	entries, t, recovery_state.get_pg_trim_to(),
+	recovery_state.get_min_last_complete_ondisk());
+
+      set<pg_shard_t> waiting_on;
+      for (set<pg_shard_t>::const_iterator i = get_acting_recovery_backfill().begin();
+	   i != get_acting_recovery_backfill().end();
+	   ++i) {
+	pg_shard_t peer(*i);
+	if (peer == pg_whoami) continue;
+	ceph_assert(recovery_state.get_peer_missing().count(peer));
+	ceph_assert(recovery_state.has_peer_info(peer));
+	if (get_osdmap()->require_osd_release >= ceph_release_t::jewel) {
+	  ceph_assert(repop);
+	  MOSDPGUpdateLogMissing *m = new MOSDPGUpdateLogMissing(
+	    entries,
+	    spg_t(info.pgid.pgid, i->shard),
+	    pg_whoami.shard,
+	    get_osdmap_epoch(),
+	    get_last_peering_reset(),
+	    repop->rep_tid,
+	    recovery_state.get_pg_trim_to(),
+	    recovery_state.get_min_last_complete_ondisk());
+	  osd->send_message_osd_cluster(
+	    peer.osd, m, get_osdmap_epoch());
+	  waiting_on.insert(peer);
+	} else {
+	  MOSDPGLog *m = new MOSDPGLog(
+	    peer.shard, pg_whoami.shard,
+	    info.last_update.epoch,
+	    info, get_last_peering_reset());
+	  m->log.log = entries;
+	  m->log.tail = old_last_update;
+	  m->log.head = info.last_update;
+	  osd->send_message_osd_cluster(
+	    peer.osd, m, get_osdmap_epoch());
+	}
+      }
+      ceph_tid_t rep_tid = repop->rep_tid;
+      waiting_on.insert(pg_whoami);
+      log_entry_update_waiting_on.insert(
+	make_pair(
+	  rep_tid,
+	  LogUpdateCtx{std::move(repop), std::move(waiting_on)}
+	  ));
+      struct OnComplete : public Context {
+	PrimaryLogPGRef pg;
+	ceph_tid_t rep_tid;
+	epoch_t epoch;
+	OnComplete(
+	  PrimaryLogPGRef pg,
+	  ceph_tid_t rep_tid,
+	  epoch_t epoch)
+	  : pg(pg), rep_tid(rep_tid), epoch(epoch) {}
+	void finish(int) override {
+	  std::scoped_lock l{*pg};
+	  if (!pg->pg_has_reset_since(epoch)) {
+	    auto it = pg->log_entry_update_waiting_on.find(rep_tid);
+	    ceph_assert(it != pg->log_entry_update_waiting_on.end());
+	    auto it2 = it->second.waiting_on.find(pg->pg_whoami);
+	    ceph_assert(it2 != it->second.waiting_on.end());
+	    it->second.waiting_on.erase(it2);
+	    if (it->second.waiting_on.empty()) {
+	      pg->repop_all_committed(it->second.repop.get());
+	      pg->log_entry_update_waiting_on.erase(it);
+	    }
+	  }
+	}
+      };
+      t.register_on_commit(
+	new OnComplete{this, rep_tid, get_osdmap_epoch()});
+      int r = osd->store->queue_transaction(ch, std::move(t), NULL);
+      ceph_assert(r == 0);
+      op_applied(info.last_update);
+    });
+
+  recovery_state.update_trim_to();
+}
+
+void PrimaryLogPG::cancel_log_updates()
+{
+  // get rid of all the LogUpdateCtx so their references to repops are
+  // dropped
+  log_entry_update_waiting_on.clear();
+}
+
+// -------------------------------------------------------
+
+void PrimaryLogPG::get_watchers(list<obj_watch_item_t> *ls)
+{
+  std::scoped_lock l{*this};
+  pair<hobject_t, ObjectContextRef> i;
+  while (object_contexts.get_next(i.first, &i)) {
+    ObjectContextRef obc(i.second);
+    get_obc_watchers(obc, *ls);
+  }
+}
+
+void PrimaryLogPG::get_obc_watchers(ObjectContextRef obc, list<obj_watch_item_t> &pg_watchers)
+{
+  for (map<pair<uint64_t, entity_name_t>, WatchRef>::iterator j =
+	 obc->watchers.begin();
+	j != obc->watchers.end();
+	++j) {
+    obj_watch_item_t owi;
+
+    owi.obj = obc->obs.oi.soid;
+    owi.wi.addr = j->second->get_peer_addr();
+    owi.wi.name = j->second->get_entity();
+    owi.wi.cookie = j->second->get_cookie();
+    owi.wi.timeout_seconds = j->second->get_timeout();
+
+    dout(30) << "watch: Found oid=" << owi.obj << " addr=" << owi.wi.addr
+      << " name=" << owi.wi.name << " cookie=" << owi.wi.cookie << dendl;
+
+    pg_watchers.push_back(owi);
+  }
+}
+
+void PrimaryLogPG::check_blocklisted_watchers()
+{
+  dout(20) << "PrimaryLogPG::check_blocklisted_watchers for pg " << get_pgid() << dendl;
+  pair<hobject_t, ObjectContextRef> i;
+  while (object_contexts.get_next(i.first, &i))
+    check_blocklisted_obc_watchers(i.second);
+}
+
+void PrimaryLogPG::check_blocklisted_obc_watchers(ObjectContextRef obc)
+{
+  dout(20) << "PrimaryLogPG::check_blocklisted_obc_watchers for obc " << obc->obs.oi.soid << dendl;
+  for (map<pair<uint64_t, entity_name_t>, WatchRef>::iterator k =
+	 obc->watchers.begin();
+	k != obc->watchers.end();
+	) {
+    //Advance iterator now so handle_watch_timeout() can erase element
+    map<pair<uint64_t, entity_name_t>, WatchRef>::iterator j = k++;
+    dout(30) << "watch: Found " << j->second->get_entity() << " cookie " << j->second->get_cookie() << dendl;
+    entity_addr_t ea = j->second->get_peer_addr();
+    dout(30) << "watch: Check entity_addr_t " << ea << dendl;
+    if (get_osdmap()->is_blocklisted(ea)) {
+      dout(10) << "watch: Found blocklisted watcher for " << ea << dendl;
+      ceph_assert(j->second->get_pg() == this);
+      j->second->unregister_cb();
+      handle_watch_timeout(j->second);
+    }
+  }
+}
+
+void PrimaryLogPG::populate_obc_watchers(ObjectContextRef obc)
+{
+  ceph_assert(is_primary() && is_active());
+  auto it_objects = recovery_state.get_pg_log().get_log().objects.find(obc->obs.oi.soid);
+  ceph_assert((recovering.count(obc->obs.oi.soid) ||
+	  !is_missing_object(obc->obs.oi.soid)) ||
+	 (it_objects != recovery_state.get_pg_log().get_log().objects.end() && // or this is a revert... see recover_primary()
+	  it_objects->second->op ==
+	    pg_log_entry_t::LOST_REVERT &&
+	  it_objects->second->reverting_to ==
+	    obc->obs.oi.version));
+
+  dout(10) << "populate_obc_watchers " << obc->obs.oi.soid << dendl;
+  ceph_assert(obc->watchers.empty());
+  // populate unconnected_watchers
+  for (map<pair<uint64_t, entity_name_t>, watch_info_t>::iterator p =
+	obc->obs.oi.watchers.begin();
+       p != obc->obs.oi.watchers.end();
+       ++p) {
+    utime_t expire = info.stats.last_became_active;
+    expire += p->second.timeout_seconds;
+    dout(10) << "  unconnected watcher " << p->first << " will expire " << expire << dendl;
+    WatchRef watch(
+      Watch::makeWatchRef(
+	this, osd, obc, p->second.timeout_seconds, p->first.first,
+	p->first.second, p->second.addr));
+    watch->disconnect();
+    obc->watchers.insert(
+      make_pair(
+	make_pair(p->first.first, p->first.second),
+	watch));
+  }
+  // Look for watchers from blocklisted clients and drop
+  check_blocklisted_obc_watchers(obc);
+}
+
+void PrimaryLogPG::handle_watch_timeout(WatchRef watch)
+{
+  ObjectContextRef obc = watch->get_obc(); // handle_watch_timeout owns this ref
+  dout(10) << "handle_watch_timeout obc " << obc << dendl;
+
+  if (!is_active()) {
+    dout(10) << "handle_watch_timeout not active, no-op" << dendl;
+    return;
+  }
+  if (!obc->obs.exists) {
+    dout(10) << __func__ << " object " << obc->obs.oi.soid << " dne" << dendl;
+    return;
+  }
+  if (is_degraded_or_backfilling_object(obc->obs.oi.soid)) {
+    callbacks_for_degraded_object[obc->obs.oi.soid].push_back(
+      watch->get_delayed_cb()
+      );
+    dout(10) << "handle_watch_timeout waiting for degraded on obj "
+	     << obc->obs.oi.soid
+	     << dendl;
+    return;
+  }
+
+  if (m_scrubber->write_blocked_by_scrub(obc->obs.oi.soid)) {
+    dout(10) << "handle_watch_timeout waiting for scrub on obj "
+	     << obc->obs.oi.soid
+	     << dendl;
+    m_scrubber->add_callback(
+      watch->get_delayed_cb() // This callback!
+      );
+    return;
+  }
+
+  OpContextUPtr ctx = simple_opc_create(obc);
+  ctx->at_version = get_next_version();
+
+  object_info_t& oi = ctx->new_obs.oi;
+  oi.watchers.erase(make_pair(watch->get_cookie(),
+			      watch->get_entity()));
+
+  list<watch_disconnect_t> watch_disconnects = {
+    watch_disconnect_t(watch->get_cookie(), watch->get_entity(), true)
+  };
+  ctx->register_on_success(
+    [this, obc, watch_disconnects]() {
+      complete_disconnect_watches(obc, watch_disconnects);
+    });
+
+
+  PGTransaction *t = ctx->op_t.get();
+  ctx->log.push_back(pg_log_entry_t(pg_log_entry_t::MODIFY, obc->obs.oi.soid,
+				    ctx->at_version,
+				    oi.version,
+				    0,
+				    osd_reqid_t(), ctx->mtime, 0));
+
+  oi.prior_version = obc->obs.oi.version;
+  oi.version = ctx->at_version;
+  bufferlist bl;
+  encode(oi, bl, get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+  t->setattr(obc->obs.oi.soid, OI_ATTR, bl);
+
+  // apply new object state.
+  ctx->obc->obs = ctx->new_obs;
+
+  // no ctx->delta_stats
+  simple_opc_submit(std::move(ctx));
+}
+
+ObjectContextRef PrimaryLogPG::create_object_context(const object_info_t& oi,
+						     SnapSetContext *ssc)
+{
+  ObjectContextRef obc(object_contexts.lookup_or_create(oi.soid));
+  ceph_assert(obc->destructor_callback == NULL);
+  obc->destructor_callback = new C_PG_ObjectContext(this, obc.get());
+  obc->obs.oi = oi;
+  obc->obs.exists = false;
+  obc->ssc = ssc;
+  if (ssc)
+    register_snapset_context(ssc);
+  dout(10) << "create_object_context " << (void*)obc.get() << " " << oi.soid << " " << dendl;
+  if (is_active())
+    populate_obc_watchers(obc);
+  return obc;
+}
+
+ObjectContextRef PrimaryLogPG::get_object_context(
+  const hobject_t& soid,
+  bool can_create,
+  const map<string, bufferlist> *attrs)
+{
+  auto it_objects = recovery_state.get_pg_log().get_log().objects.find(soid);
+  ceph_assert(
+    attrs || !recovery_state.get_pg_log().get_missing().is_missing(soid) ||
+    // or this is a revert... see recover_primary()
+    (it_objects != recovery_state.get_pg_log().get_log().objects.end() &&
+      it_objects->second->op ==
+      pg_log_entry_t::LOST_REVERT));
+  ObjectContextRef obc = object_contexts.lookup(soid);
+  osd->logger->inc(l_osd_object_ctx_cache_total);
+  if (obc) {
+    osd->logger->inc(l_osd_object_ctx_cache_hit);
+    dout(10) << __func__ << ": found obc in cache: " << obc
+	     << dendl;
+  } else {
+    dout(10) << __func__ << ": obc NOT found in cache: " << soid << dendl;
+    // check disk
+    bufferlist bv;
+    if (attrs) {
+      auto it_oi = attrs->find(OI_ATTR);
+      ceph_assert(it_oi != attrs->end());
+      bv = it_oi->second;
+    } else {
+      int r = pgbackend->objects_get_attr(soid, OI_ATTR, &bv);
+      if (r < 0) {
+	if (!can_create) {
+	  dout(10) << __func__ << ": no obc for soid "
+		   << soid << " and !can_create"
+		   << dendl;
+	  return ObjectContextRef();   // -ENOENT!
+	}
+
+	dout(10) << __func__ << ": no obc for soid "
+		 << soid << " but can_create"
+		 << dendl;
+	// new object.
+	object_info_t oi(soid);
+	SnapSetContext *ssc = get_snapset_context(
+	  soid, true, 0, false);
+        ceph_assert(ssc);
+	obc = create_object_context(oi, ssc);
+	dout(10) << __func__ << ": " << obc << " " << soid
+		 << " " << obc->rwstate
+		 << " oi: " << obc->obs.oi
+		 << " ssc: " << obc->ssc
+		 << " snapset: " << obc->ssc->snapset << dendl;
+	return obc;
+      }
+    }
+
+    object_info_t oi;
+    try {
+      bufferlist::const_iterator bliter = bv.begin();
+      decode(oi, bliter);
+    } catch (...) {
+      dout(0) << __func__ << ": obc corrupt: " << soid << dendl;
+      return ObjectContextRef();   // -ENOENT!
+    }
+
+    ceph_assert(oi.soid.pool == (int64_t)info.pgid.pool());
+
+    obc = object_contexts.lookup_or_create(oi.soid);
+    obc->destructor_callback = new C_PG_ObjectContext(this, obc.get());
+    obc->obs.oi = oi;
+    obc->obs.exists = true;
+
+    obc->ssc = get_snapset_context(
+      soid, true,
+      soid.has_snapset() ? attrs : 0);
+
+    if (is_primary() && is_active())
+      populate_obc_watchers(obc);
+
+    if (pool.info.is_erasure()) {
+      if (attrs) {
+	obc->attr_cache = *attrs;
+      } else {
+	int r = pgbackend->objects_get_attrs(
+	  soid,
+	  &obc->attr_cache);
+	ceph_assert(r == 0);
+      }
+    }
+
+    dout(10) << __func__ << ": creating obc from disk: " << obc
+	     << dendl;
+  }
+
+  // XXX: Caller doesn't expect this
+  if (obc->ssc == NULL) {
+    derr << __func__ << ": obc->ssc not available, not returning context" << dendl;
+    return ObjectContextRef();   // -ENOENT!
+  }
+
+  dout(10) << __func__ << ": " << obc << " " << soid
+	   << " " << obc->rwstate
+	   << " oi: " << obc->obs.oi
+	   << " exists: " << (int)obc->obs.exists
+	   << " ssc: " << obc->ssc
+	   << " snapset: " << obc->ssc->snapset << dendl;
+  return obc;
+}
+
+void PrimaryLogPG::context_registry_on_change()
+{
+  pair<hobject_t, ObjectContextRef> i;
+  while (object_contexts.get_next(i.first, &i)) {
+    ObjectContextRef obc(i.second);
+    if (obc) {
+      for (map<pair<uint64_t, entity_name_t>, WatchRef>::iterator j =
+	     obc->watchers.begin();
+	   j != obc->watchers.end();
+	   obc->watchers.erase(j++)) {
+	j->second->discard();
+      }
+    }
+  }
+}
+
+
+/*
+ * If we return an error, and set *pmissing, then promoting that
+ * object may help.
+ *
+ * If we return -EAGAIN, we will always set *pmissing to the missing
+ * object to wait for.
+ *
+ * If we return an error but do not set *pmissing, then we know the
+ * object does not exist.
+ */
+int PrimaryLogPG::find_object_context(const hobject_t& oid,
+				      ObjectContextRef *pobc,
+				      bool can_create,
+				      bool map_snapid_to_clone,
+				      hobject_t *pmissing)
+{
+  FUNCTRACE(cct);
+  ceph_assert(oid.pool == static_cast<int64_t>(info.pgid.pool()));
+  // want the head?
+  if (oid.snap == CEPH_NOSNAP) {
+    ObjectContextRef obc = get_object_context(oid, can_create);
+    if (!obc) {
+      if (pmissing)
+        *pmissing = oid;
+      return -ENOENT;
+    }
+    dout(10) << __func__ << " " << oid
+       << " @" << oid.snap
+       << " oi=" << obc->obs.oi
+       << dendl;
+    *pobc = obc;
+
+    return 0;
+  }
+
+  // we want a snap
+
+  hobject_t head = oid.get_head();
+  SnapSetContext *ssc = get_snapset_context(oid, can_create);
+  if (!ssc || !(ssc->exists || can_create)) {
+    dout(20) << __func__ << " " << oid << " no snapset" << dendl;
+    if (pmissing)
+      *pmissing = head;  // start by getting the head
+    if (ssc)
+      put_snapset_context(ssc);
+    return -ENOENT;
+  }
+
+  if (map_snapid_to_clone) {
+    dout(10) << __func__ << " " << oid << " @" << oid.snap
+	     << " snapset " << ssc->snapset
+	     << " map_snapid_to_clone=true" << dendl;
+    if (oid.snap > ssc->snapset.seq) {
+      // already must be readable
+      ObjectContextRef obc = get_object_context(head, false);
+      dout(10) << __func__ << " " << oid << " @" << oid.snap
+	       << " snapset " << ssc->snapset
+	       << " maps to head" << dendl;
+      *pobc = obc;
+      put_snapset_context(ssc);
+      return (obc && obc->obs.exists) ? 0 : -ENOENT;
+    } else {
+      vector<snapid_t>::const_iterator citer = std::find(
+	ssc->snapset.clones.begin(),
+	ssc->snapset.clones.end(),
+	oid.snap);
+      if (citer == ssc->snapset.clones.end()) {
+	dout(10) << __func__ << " " << oid << " @" << oid.snap
+		 << " snapset " << ssc->snapset
+		 << " maps to nothing" << dendl;
+	put_snapset_context(ssc);
+	return -ENOENT;
+      }
+
+      dout(10) << __func__ << " " << oid << " @" << oid.snap
+	       << " snapset " << ssc->snapset
+	       << " maps to " << oid << dendl;
+
+      if (recovery_state.get_pg_log().get_missing().is_missing(oid)) {
+	dout(10) << __func__ << " " << oid << " @" << oid.snap
+		 << " snapset " << ssc->snapset
+		 << " " << oid << " is missing" << dendl;
+	if (pmissing)
+	  *pmissing = oid;
+	put_snapset_context(ssc);
+	return -EAGAIN;
+      }
+
+      ObjectContextRef obc = get_object_context(oid, false);
+      if (!obc || !obc->obs.exists) {
+	dout(10) << __func__ << " " << oid << " @" << oid.snap
+		 << " snapset " << ssc->snapset
+		 << " " << oid << " is not present" << dendl;
+	if (pmissing)
+	  *pmissing = oid;
+	put_snapset_context(ssc);
+	return -ENOENT;
+      }
+      dout(10) << __func__ << " " << oid << " @" << oid.snap
+	       << " snapset " << ssc->snapset
+	       << " " << oid << " HIT" << dendl;
+      *pobc = obc;
+      put_snapset_context(ssc);
+      return 0;
+    }
+    ceph_abort(); //unreachable
+  }
+
+  dout(10) << __func__ << " " << oid << " @" << oid.snap
+	   << " snapset " << ssc->snapset << dendl;
+
+  // head?
+  if (oid.snap > ssc->snapset.seq) {
+    ObjectContextRef obc = get_object_context(head, false);
+    dout(10) << __func__ << " " << head
+	     << " want " << oid.snap << " > snapset seq " << ssc->snapset.seq
+	     << " -- HIT " << obc->obs
+	     << dendl;
+    if (!obc->ssc)
+      obc->ssc = ssc;
+    else {
+      ceph_assert(ssc == obc->ssc);
+      put_snapset_context(ssc);
+    }
+    *pobc = obc;
+    return 0;
+  }
+
+  // which clone would it be?
+  unsigned k = 0;
+  while (k < ssc->snapset.clones.size() &&
+	 ssc->snapset.clones[k] < oid.snap)
+    k++;
+  if (k == ssc->snapset.clones.size()) {
+    dout(10) << __func__ << " no clones with last >= oid.snap "
+	     << oid.snap << " -- DNE" << dendl;
+    put_snapset_context(ssc);
+    return -ENOENT;
+  }
+  hobject_t soid(oid.oid, oid.get_key(), ssc->snapset.clones[k], oid.get_hash(),
+		 info.pgid.pool(), oid.get_namespace());
+
+  if (recovery_state.get_pg_log().get_missing().is_missing(soid)) {
+    dout(20) << __func__ << " " << soid << " missing, try again later"
+	     << dendl;
+    if (pmissing)
+      *pmissing = soid;
+    put_snapset_context(ssc);
+    return -EAGAIN;
+  }
+
+  ObjectContextRef obc = get_object_context(soid, false);
+  if (!obc || !obc->obs.exists) {
+    if (pmissing)
+      *pmissing = soid;
+    put_snapset_context(ssc);
+    if (is_primary()) {
+      if (is_degraded_or_backfilling_object(soid)) {
+	dout(20) << __func__ << " clone is degraded or backfilling " << soid << dendl;
+	return -EAGAIN;
+      } else if (is_degraded_on_async_recovery_target(soid)) {
+	dout(20) << __func__ << " clone is recovering " << soid << dendl;
+	return -EAGAIN;
+      } else {
+	dout(20) << __func__ << " missing clone " << soid << dendl;
+	return -ENOENT;
+      }
+    } else {
+      dout(20) << __func__ << " replica missing clone" << soid << dendl;
+      return -ENOENT;
+    }
+  }
+
+  if (!obc->ssc) {
+    obc->ssc = ssc;
+  } else {
+    ceph_assert(obc->ssc == ssc);
+    put_snapset_context(ssc);
+  }
+  ssc = 0;
+
+  // clone
+  dout(20) << __func__ << " " << soid
+	   << " snapset " << obc->ssc->snapset
+	   << dendl;
+  snapid_t first, last;
+  auto p = obc->ssc->snapset.clone_snaps.find(soid.snap);
+  ceph_assert(p != obc->ssc->snapset.clone_snaps.end());
+  if (p->second.empty()) {
+    dout(1) << __func__ << " " << soid << " empty snapset -- DNE" << dendl;
+    ceph_assert(!cct->_conf->osd_debug_verify_snaps);
+    return -ENOENT;
+  }
+  if (std::find(p->second.begin(), p->second.end(), oid.snap) ==
+      p->second.end()) {
+    dout(20) << __func__ << " " << soid << " clone_snaps " << p->second
+	     << " does not contain " << oid.snap << " -- DNE" << dendl;
+    return -ENOENT;
+  }
+  if (get_osdmap()->in_removed_snaps_queue(info.pgid.pgid.pool(), oid.snap)) {
+    dout(20) << __func__ << " " << soid << " snap " << oid.snap
+	     << " in removed_snaps_queue" << " -- DNE" << dendl;
+    return -ENOENT;
+  }
+  dout(20) << __func__ << " " << soid << " clone_snaps " << p->second
+	   << " contains " << oid.snap << " -- HIT " << obc->obs << dendl;
+  *pobc = obc;
+  return 0;
+}
+
+void PrimaryLogPG::object_context_destructor_callback(ObjectContext *obc)
+{
+  if (obc->ssc)
+    put_snapset_context(obc->ssc);
+}
+
+void PrimaryLogPG::add_object_context_to_pg_stat(ObjectContextRef obc, pg_stat_t *pgstat)
+{
+  object_info_t& oi = obc->obs.oi;
+
+  dout(10) << __func__ << " " << oi.soid << dendl;
+  ceph_assert(!oi.soid.is_snapdir());
+
+  object_stat_sum_t stat;
+  stat.num_objects++;
+  if (oi.is_dirty())
+    stat.num_objects_dirty++;
+  if (oi.is_whiteout())
+    stat.num_whiteouts++;
+  if (oi.is_omap())
+    stat.num_objects_omap++;
+  if (oi.is_cache_pinned())
+    stat.num_objects_pinned++;
+  if (oi.has_manifest())
+    stat.num_objects_manifest++;
+
+  if (oi.soid.is_snap()) {
+    stat.num_object_clones++;
+
+    if (!obc->ssc)
+      obc->ssc = get_snapset_context(oi.soid, false);
+    ceph_assert(obc->ssc);
+    stat.num_bytes += obc->ssc->snapset.get_clone_bytes(oi.soid.snap);
+  } else {
+    stat.num_bytes += oi.size;
+  }
+
+  // add it in
+  pgstat->stats.sum.add(stat);
+}
+
+void PrimaryLogPG::kick_object_context_blocked(ObjectContextRef obc)
+{
+  const hobject_t& soid = obc->obs.oi.soid;
+  if (obc->is_blocked()) {
+    dout(10) << __func__ << " " << soid << " still blocked" << dendl;
+    return;
+  }
+
+  map<hobject_t, list<OpRequestRef>>::iterator p = waiting_for_blocked_object.find(soid);
+  if (p != waiting_for_blocked_object.end()) {
+    list<OpRequestRef>& ls = p->second;
+    dout(10) << __func__ << " " << soid << " requeuing " << ls.size() << " requests" << dendl;
+    requeue_ops(ls);
+    waiting_for_blocked_object.erase(p);
+  }
+
+  map<hobject_t, ObjectContextRef>::iterator i =
+    objects_blocked_on_snap_promotion.find(obc->obs.oi.soid.get_head());
+  if (i != objects_blocked_on_snap_promotion.end()) {
+    ceph_assert(i->second == obc);
+    objects_blocked_on_snap_promotion.erase(i);
+  }
+
+  if (obc->requeue_scrub_on_unblock) {
+
+    obc->requeue_scrub_on_unblock = false;
+
+    dout(20) << __func__ << " requeuing if still active: " << (is_active() ? "yes" : "no") << dendl;
+
+    // only requeue if we are still active: we may be unblocking
+    // because we are resetting for a new peering interval
+    if (is_active()) {
+      osd->queue_scrub_unblocking(this, is_scrub_blocking_ops());
+    }
+  }
+}
+
+SnapSetContext *PrimaryLogPG::get_snapset_context(
+  const hobject_t& oid,
+  bool can_create,
+  const map<string, bufferlist> *attrs,
+  bool oid_existed)
+{
+  std::lock_guard l(snapset_contexts_lock);
+  SnapSetContext *ssc;
+  map<hobject_t, SnapSetContext*>::iterator p = snapset_contexts.find(
+    oid.get_snapdir());
+  if (p != snapset_contexts.end()) {
+    if (can_create || p->second->exists) {
+      ssc = p->second;
+    } else {
+      return NULL;
+    }
+  } else {
+    bufferlist bv;
+    if (!attrs) {
+      int r = -ENOENT;
+      if (!(oid.is_head() && !oid_existed)) {
+	r = pgbackend->objects_get_attr(oid.get_head(), SS_ATTR, &bv);
+      }
+      if (r < 0 && !can_create)
+	return NULL;
+    } else {
+      auto it_ss = attrs->find(SS_ATTR);
+      ceph_assert(it_ss != attrs->end());
+      bv = it_ss->second;
+    }
+    ssc = new SnapSetContext(oid.get_snapdir());
+    _register_snapset_context(ssc);
+    if (bv.length()) {
+      bufferlist::const_iterator bvp = bv.begin();
+      try {
+	ssc->snapset.decode(bvp);
+      } catch (const ceph::buffer::error& e) {
+        dout(0) << __func__ << " Can't decode snapset: " << e.what() << dendl;
+	return NULL;
+      }
+      ssc->exists = true;
+    } else {
+      ssc->exists = false;
+    }
+  }
+  ceph_assert(ssc);
+  ssc->ref++;
+  return ssc;
+}
+
+void PrimaryLogPG::put_snapset_context(SnapSetContext *ssc)
+{
+  std::lock_guard l(snapset_contexts_lock);
+  --ssc->ref;
+  if (ssc->ref == 0) {
+    if (ssc->registered)
+      snapset_contexts.erase(ssc->oid);
+    delete ssc;
+  }
+}
+
+/*
+ * Return values:
+ *  NONE  - didn't pull anything
+ *  YES   - pulled what the caller wanted
+ *  HEAD  - needed to pull head first
+ */
+enum { PULL_NONE, PULL_HEAD, PULL_YES };
+
+int PrimaryLogPG::recover_missing(
+  const hobject_t &soid, eversion_t v,
+  int priority,
+  PGBackend::RecoveryHandle *h)
+{
+  if (recovery_state.get_missing_loc().is_unfound(soid)) {
+    dout(7) << __func__ << " " << soid
+	    << " v " << v
+	    << " but it is unfound" << dendl;
+    return PULL_NONE;
+  }
+
+  if (recovery_state.get_missing_loc().is_deleted(soid)) {
+    start_recovery_op(soid);
+    ceph_assert(!recovering.count(soid));
+    recovering.insert(make_pair(soid, ObjectContextRef()));
+    epoch_t cur_epoch = get_osdmap_epoch();
+    remove_missing_object(soid, v, new LambdaContext(
+     [=](int) {
+       std::scoped_lock locker{*this};
+       if (!pg_has_reset_since(cur_epoch)) {
+	 bool object_missing = false;
+	 for (const auto& shard : get_acting_recovery_backfill()) {
+	   if (shard == pg_whoami)
+	     continue;
+	   if (recovery_state.get_peer_missing(shard).is_missing(soid)) {
+	     dout(20) << __func__ << ": soid " << soid << " needs to be deleted from replica " << shard << dendl;
+	     object_missing = true;
+	     break;
+	   }
+	 }
+	 if (!object_missing) {
+	   object_stat_sum_t stat_diff;
+	   stat_diff.num_objects_recovered = 1;
+	   if (scrub_after_recovery)
+	     stat_diff.num_objects_repaired = 1;
+	   on_global_recover(soid, stat_diff, true);
+	 } else {
+	   auto recovery_handle = pgbackend->open_recovery_op();
+	   pgbackend->recover_delete_object(soid, v, recovery_handle);
+	   pgbackend->run_recovery_op(recovery_handle, priority);
+	 }
+       }
+     }));
+    return PULL_YES;
+  }
+
+  // is this a snapped object?  if so, consult the snapset.. we may not need the entire object!
+  ObjectContextRef obc;
+  ObjectContextRef head_obc;
+  if (soid.snap && soid.snap < CEPH_NOSNAP) {
+    // do we have the head?
+    hobject_t head = soid.get_head();
+    if (recovery_state.get_pg_log().get_missing().is_missing(head)) {
+      if (recovering.count(head)) {
+	dout(10) << " missing but already recovering head " << head << dendl;
+	return PULL_NONE;
+      } else {
+	int r = recover_missing(
+	  head, recovery_state.get_pg_log().get_missing().get_items().find(head)->second.need, priority,
+	  h);
+	if (r != PULL_NONE)
+	  return PULL_HEAD;
+	return PULL_NONE;
+      }
+    }
+    head_obc = get_object_context(
+      head,
+      false,
+      0);
+    ceph_assert(head_obc);
+  }
+  start_recovery_op(soid);
+  ceph_assert(!recovering.count(soid));
+  recovering.insert(make_pair(soid, obc));
+  int r = pgbackend->recover_object(
+    soid,
+    v,
+    head_obc,
+    obc,
+    h);
+  // This is only a pull which shouldn't return an error
+  ceph_assert(r >= 0);
+  return PULL_YES;
+}
+
+void PrimaryLogPG::remove_missing_object(const hobject_t &soid,
+					 eversion_t v, Context *on_complete)
+{
+  dout(20) << __func__ << " " << soid << " " << v << dendl;
+  ceph_assert(on_complete != nullptr);
+  // delete locally
+  ObjectStore::Transaction t;
+  remove_snap_mapped_object(t, soid);
+
+  ObjectRecoveryInfo recovery_info;
+  recovery_info.soid = soid;
+  recovery_info.version = v;
+
+  epoch_t cur_epoch = get_osdmap_epoch();
+  t.register_on_complete(new LambdaContext(
+     [=](int) {
+       std::unique_lock locker{*this};
+       if (!pg_has_reset_since(cur_epoch)) {
+	 ObjectStore::Transaction t2;
+	 on_local_recover(soid, recovery_info, ObjectContextRef(), true, &t2);
+	 t2.register_on_complete(on_complete);
+	 int r = osd->store->queue_transaction(ch, std::move(t2), nullptr);
+	 ceph_assert(r == 0);
+	 locker.unlock();
+       } else {
+	 locker.unlock();
+	 on_complete->complete(-EAGAIN);
+       }
+     }));
+  int r = osd->store->queue_transaction(ch, std::move(t), nullptr);
+  ceph_assert(r == 0);
+}
+
+void PrimaryLogPG::finish_degraded_object(const hobject_t oid)
+{
+  dout(10) << __func__ << " " << oid << dendl;
+  if (callbacks_for_degraded_object.count(oid)) {
+    list<Context*> contexts;
+    contexts.swap(callbacks_for_degraded_object[oid]);
+    callbacks_for_degraded_object.erase(oid);
+    for (list<Context*>::iterator i = contexts.begin();
+	 i != contexts.end();
+	 ++i) {
+      (*i)->complete(0);
+    }
+  }
+  map<hobject_t, snapid_t>::iterator i = objects_blocked_on_degraded_snap.find(
+    oid.get_head());
+  if (i != objects_blocked_on_degraded_snap.end() &&
+      i->second == oid.snap)
+    objects_blocked_on_degraded_snap.erase(i);
+}
+
+void PrimaryLogPG::_committed_pushed_object(
+  epoch_t epoch, eversion_t last_complete)
+{
+  std::scoped_lock locker{*this};
+  if (!pg_has_reset_since(epoch)) {
+    recovery_state.recovery_committed_to(last_complete);
+  } else {
+    dout(10) << __func__
+	     << " pg has changed, not touching last_complete_ondisk" << dendl;
+  }
+}
+
+void PrimaryLogPG::_applied_recovered_object(ObjectContextRef obc)
+{
+  dout(20) << __func__ << dendl;
+  if (obc) {
+    dout(20) << "obc = " << *obc << dendl;
+  }
+  ceph_assert(active_pushes >= 1);
+  --active_pushes;
+
+  // requeue an active chunky scrub waiting on recovery ops
+  if (!recovery_state.is_deleting() && active_pushes == 0 &&
+      m_scrubber->is_scrub_active()) {
+
+    osd->queue_scrub_pushes_update(this, is_scrub_blocking_ops());
+  }
+}
+
+void PrimaryLogPG::_applied_recovered_object_replica()
+{
+  dout(20) << __func__ << dendl;
+  ceph_assert(active_pushes >= 1);
+  --active_pushes;
+
+  // requeue an active scrub waiting on recovery ops
+  if (!recovery_state.is_deleting() && active_pushes == 0 &&
+      m_scrubber->is_scrub_active()) {
+
+    osd->queue_scrub_replica_pushes(this, m_scrubber->replica_op_priority());
+  }
+}
+
+void PrimaryLogPG::on_failed_pull(
+  const set<pg_shard_t> &from,
+  const hobject_t &soid,
+  const eversion_t &v)
+{
+  dout(20) << __func__ << ": " << soid << dendl;
+  ceph_assert(recovering.count(soid));
+  auto obc = recovering[soid];
+  if (obc) {
+    list<OpRequestRef> blocked_ops;
+    obc->drop_recovery_read(&blocked_ops);
+    requeue_ops(blocked_ops);
+  }
+  recovering.erase(soid);
+  for (auto&& i : from) {
+    if (i != pg_whoami) { // we'll get it below in primary_error
+      recovery_state.force_object_missing(i, soid, v);
+    }
+  }
+
+  dout(0) << __func__ << " " << soid << " from shard " << from
+	  << ", reps on " << recovery_state.get_missing_loc().get_locations(soid)
+	  << " unfound? " << recovery_state.get_missing_loc().is_unfound(soid)
+	  << dendl;
+  finish_recovery_op(soid);  // close out this attempt,
+  finish_degraded_object(soid);
+
+  if (from.count(pg_whoami)) {
+    dout(0) << " primary missing oid " << soid << " version " << v << dendl;
+    primary_error(soid, v);
+    backfills_in_flight.erase(soid);
+  }
+}
+
+eversion_t PrimaryLogPG::pick_newest_available(const hobject_t& oid)
+{
+  eversion_t v;
+  pg_missing_item pmi;
+  bool is_missing = recovery_state.get_pg_log().get_missing().is_missing(oid, &pmi);
+  ceph_assert(is_missing);
+  v = pmi.have;
+  dout(10) << "pick_newest_available " << oid << " " << v << " on osd." << osd->whoami << " (local)" << dendl;
+
+  ceph_assert(!get_acting_recovery_backfill().empty());
+  for (set<pg_shard_t>::iterator i = get_acting_recovery_backfill().begin();
+       i != get_acting_recovery_backfill().end();
+       ++i) {
+    if (*i == get_primary()) continue;
+    pg_shard_t peer = *i;
+    if (!recovery_state.get_peer_missing(peer).is_missing(oid)) {
+      continue;
+    }
+    eversion_t h = recovery_state.get_peer_missing(peer).get_items().at(oid).have;
+    dout(10) << "pick_newest_available " << oid << " " << h << " on osd." << peer << dendl;
+    if (h > v)
+      v = h;
+  }
+
+  dout(10) << "pick_newest_available " << oid << " " << v << " (newest)" << dendl;
+  return v;
+}
+
+void PrimaryLogPG::do_update_log_missing(OpRequestRef &op)
+{
+  const MOSDPGUpdateLogMissing *m = static_cast<const MOSDPGUpdateLogMissing*>(
+    op->get_req());
+  ceph_assert(m->get_type() == MSG_OSD_PG_UPDATE_LOG_MISSING);
+  ObjectStore::Transaction t;
+  std::optional<eversion_t> op_trim_to, op_roll_forward_to;
+  if (m->pg_trim_to != eversion_t())
+    op_trim_to = m->pg_trim_to;
+  if (m->pg_roll_forward_to != eversion_t())
+    op_roll_forward_to = m->pg_roll_forward_to;
+
+  dout(20) << __func__
+	   << " op_trim_to = " << op_trim_to << " op_roll_forward_to = " << op_roll_forward_to << dendl;
+
+  recovery_state.append_log_entries_update_missing(
+    m->entries, t, op_trim_to, op_roll_forward_to);
+  eversion_t new_lcod = info.last_complete;
+
+  Context *complete = new LambdaContext(
+    [=](int) {
+      const MOSDPGUpdateLogMissing *msg = static_cast<const MOSDPGUpdateLogMissing*>(
+	op->get_req());
+      std::scoped_lock locker{*this};
+      if (!pg_has_reset_since(msg->get_epoch())) {
+	update_last_complete_ondisk(new_lcod);
+	MOSDPGUpdateLogMissingReply *reply =
+	  new MOSDPGUpdateLogMissingReply(
+	    spg_t(info.pgid.pgid, primary_shard().shard),
+	    pg_whoami.shard,
+	    msg->get_epoch(),
+	    msg->min_epoch,
+	    msg->get_tid(),
+	    new_lcod);
+	reply->set_priority(CEPH_MSG_PRIO_HIGH);
+	msg->get_connection()->send_message(reply);
+      }
+    });
+
+  if (get_osdmap()->require_osd_release >= ceph_release_t::kraken) {
+    t.register_on_commit(complete);
+  } else {
+    /* Hack to work around the fact that ReplicatedBackend sends
+     * ack+commit if commit happens first
+     *
+     * This behavior is no longer necessary, but we preserve it so old
+     * primaries can keep their repops in order */
+    if (pool.info.is_erasure()) {
+      t.register_on_complete(complete);
+    } else {
+      t.register_on_commit(complete);
+    }
+  }
+  int tr = osd->store->queue_transaction(
+    ch,
+    std::move(t),
+    nullptr);
+  ceph_assert(tr == 0);
+  op_applied(info.last_update);
+}
+
+void PrimaryLogPG::do_update_log_missing_reply(OpRequestRef &op)
+{
+  const MOSDPGUpdateLogMissingReply *m =
+    static_cast<const MOSDPGUpdateLogMissingReply*>(
+    op->get_req());
+  dout(20) << __func__ << " got reply from "
+	   << m->get_from() << dendl;
+
+  auto it = log_entry_update_waiting_on.find(m->get_tid());
+  if (it != log_entry_update_waiting_on.end()) {
+    if (it->second.waiting_on.count(m->get_from())) {
+      it->second.waiting_on.erase(m->get_from());
+      if (m->last_complete_ondisk != eversion_t()) {
+	update_peer_last_complete_ondisk(m->get_from(), m->last_complete_ondisk);
+      }
+    } else {
+      osd->clog->error()
+	<< info.pgid << " got reply "
+	<< *m << " from shard we are not waiting for "
+	<< m->get_from();
+    }
+
+    if (it->second.waiting_on.empty()) {
+      repop_all_committed(it->second.repop.get());
+      log_entry_update_waiting_on.erase(it);
+    }
+  } else {
+    osd->clog->error()
+      << info.pgid << " got reply "
+      << *m << " on unknown tid " << m->get_tid();
+  }
+}
+
+/* Mark all unfound objects as lost.
+ */
+void PrimaryLogPG::mark_all_unfound_lost(
+  int what,
+  std::function<void(int,const std::string&,bufferlist&)> on_finish)
+{
+  dout(3) << __func__ << " " << pg_log_entry_t::get_op_name(what) << dendl;
+  list<hobject_t> oids;
+
+  dout(30) << __func__ << ": log before:\n";
+  recovery_state.get_pg_log().get_log().print(*_dout);
+  *_dout << dendl;
+
+  mempool::osd_pglog::list<pg_log_entry_t> log_entries;
+
+  utime_t mtime = ceph_clock_now();
+  map<hobject_t, pg_missing_item>::const_iterator m =
+    recovery_state.get_missing_loc().get_needs_recovery().begin();
+  map<hobject_t, pg_missing_item>::const_iterator mend =
+    recovery_state.get_missing_loc().get_needs_recovery().end();
+
+  ObcLockManager manager;
+  eversion_t v = get_next_version();
+  v.epoch = get_osdmap_epoch();
+  uint64_t num_unfound = recovery_state.get_missing_loc().num_unfound();
+  while (m != mend) {
+    const hobject_t &oid(m->first);
+    if (!recovery_state.get_missing_loc().is_unfound(oid)) {
+      // We only care about unfound objects
+      ++m;
+      continue;
+    }
+
+    ObjectContextRef obc;
+    eversion_t prev;
+
+    switch (what) {
+    case pg_log_entry_t::LOST_MARK:
+      ceph_abort_msg("actually, not implemented yet!");
+      break;
+
+    case pg_log_entry_t::LOST_REVERT:
+      prev = pick_newest_available(oid);
+      if (prev > eversion_t()) {
+	// log it
+	pg_log_entry_t e(
+	  pg_log_entry_t::LOST_REVERT, oid, v,
+	  m->second.need, 0, osd_reqid_t(), mtime, 0);
+	e.reverting_to = prev;
+	e.mark_unrollbackable();
+	log_entries.push_back(e);
+	dout(10) << e << dendl;
+
+	// we are now missing the new version; recovery code will sort it out.
+	++v.version;
+	++m;
+	break;
+      }
+
+    case pg_log_entry_t::LOST_DELETE:
+      {
+	pg_log_entry_t e(pg_log_entry_t::LOST_DELETE, oid, v, m->second.need,
+			 0, osd_reqid_t(), mtime, 0);
+	if (get_osdmap()->require_osd_release >= ceph_release_t::jewel) {
+	  if (pool.info.require_rollback()) {
+	    e.mod_desc.try_rmobject(v.version);
+	  } else {
+	    e.mark_unrollbackable();
+	  }
+	} // otherwise, just do what we used to do
+	dout(10) << e << dendl;
+	log_entries.push_back(e);
+        oids.push_back(oid);
+
+	// If context found mark object as deleted in case
+	// of racing with new creation.  This can happen if
+	// object lost and EIO at primary.
+	obc = object_contexts.lookup(oid);
+	if (obc)
+	  obc->obs.exists = false;
+
+	++v.version;
+	++m;
+      }
+      break;
+
+    default:
+      ceph_abort();
+    }
+  }
+
+  recovery_state.update_stats(
+    [](auto &history, auto &stats) {
+      stats.stats_invalid = true;
+      return false;
+    });
+
+  submit_log_entries(
+    log_entries,
+    std::move(manager),
+    std::optional<std::function<void(void)> >(
+      [this, oids, num_unfound, on_finish]() {
+	if (recovery_state.perform_deletes_during_peering()) {
+	  for (auto oid : oids) {
+	    // clear old locations - merge_new_log_entries will have
+	    // handled rebuilding missing_loc for each of these
+	    // objects if we have the RECOVERY_DELETES flag
+	    recovery_state.object_recovered(oid, object_stat_sum_t());
+	  }
+	}
+
+	if (is_recovery_unfound()) {
+	  queue_peering_event(
+	    PGPeeringEventRef(
+	      std::make_shared<PGPeeringEvent>(
+	      get_osdmap_epoch(),
+	      get_osdmap_epoch(),
+	      PeeringState::DoRecovery())));
+	} else if (is_backfill_unfound()) {
+	  queue_peering_event(
+	    PGPeeringEventRef(
+	      std::make_shared<PGPeeringEvent>(
+	      get_osdmap_epoch(),
+	      get_osdmap_epoch(),
+	      PeeringState::RequestBackfill())));
+	} else {
+	  queue_recovery();
+	}
+
+	stringstream ss;
+	ss << "pg has " << num_unfound
+	   << " objects unfound and apparently lost marking";
+	string rs = ss.str();
+	dout(0) << "do_command r=" << 0 << " " << rs << dendl;
+	osd->clog->info() << rs;
+	bufferlist empty;
+	on_finish(0, rs, empty);
+      }),
+    OpRequestRef());
+}
+
+void PrimaryLogPG::_split_into(pg_t child_pgid, PG *child, unsigned split_bits)
+{
+  ceph_assert(repop_queue.empty());
+}
+
+/*
+ * pg status change notification
+ */
+
+void PrimaryLogPG::apply_and_flush_repops(bool requeue)
+{
+  list<OpRequestRef> rq;
+
+  // apply all repops
+  while (!repop_queue.empty()) {
+    RepGather *repop = repop_queue.front();
+    repop_queue.pop_front();
+    dout(10) << " canceling repop tid " << repop->rep_tid << dendl;
+    repop->rep_aborted = true;
+    repop->on_committed.clear();
+    repop->on_success.clear();
+
+    if (requeue) {
+      if (repop->op) {
+	dout(10) << " requeuing " << *repop->op->get_req() << dendl;
+	rq.push_back(repop->op);
+	repop->op = OpRequestRef();
+      }
+
+      // also requeue any dups, interleaved into position
+      auto p = waiting_for_ondisk.find(repop->v);
+      if (p != waiting_for_ondisk.end()) {
+	dout(10) << " also requeuing ondisk waiters " << p->second << dendl;
+	for (auto& i : p->second) {
+	  rq.push_back(std::get<0>(i));
+	}
+	waiting_for_ondisk.erase(p);
+      }
+    }
+
+    remove_repop(repop);
+  }
+
+  ceph_assert(repop_queue.empty());
+
+  if (requeue) {
+    requeue_ops(rq);
+    if (!waiting_for_ondisk.empty()) {
+      for (auto& i : waiting_for_ondisk) {
+        for (auto& j : i.second) {
+          derr << __func__ << ": op " << *(std::get<0>(j)->get_req())
+               << " waiting on " << i.first << dendl;
+        }
+      }
+      ceph_assert(waiting_for_ondisk.empty());
+    }
+  }
+
+  waiting_for_ondisk.clear();
+}
+
+void PrimaryLogPG::on_flushed()
+{
+  requeue_ops(waiting_for_flush);
+  if (!is_peered() || !is_primary()) {
+    pair<hobject_t, ObjectContextRef> i;
+    while (object_contexts.get_next(i.first, &i)) {
+      derr << __func__ << ": object " << i.first << " obc still alive" << dendl;
+    }
+    ceph_assert(object_contexts.empty());
+  }
+}
+
+void PrimaryLogPG::on_removal(ObjectStore::Transaction &t)
+{
+  dout(10) << __func__ << dendl;
+
+  on_shutdown();
+
+  t.register_on_commit(new C_DeleteMore(this, get_osdmap_epoch()));
+}
+
+void PrimaryLogPG::clear_async_reads()
+{
+  dout(10) << __func__ << dendl;
+  for(auto& i : in_progress_async_reads) {
+    dout(10) << "clear ctx: "
+             << "OpRequestRef " << i.first
+             << " OpContext " << i.second
+             << dendl;
+    close_op_ctx(i.second);
+  }
+}
+
+void PrimaryLogPG::clear_cache()
+{
+  object_contexts.clear();
+}
+
+void PrimaryLogPG::on_shutdown()
+{
+  dout(10) << __func__ << dendl;
+
+  if (recovery_queued) {
+    recovery_queued = false;
+    osd->clear_queued_recovery(this);
+  }
+
+  m_scrubber->scrub_clear_state();
+
+  m_scrubber->unreg_next_scrub();
+
+  vector<ceph_tid_t> tids;
+  cancel_copy_ops(false, &tids);
+  cancel_flush_ops(false, &tids);
+  cancel_proxy_ops(false, &tids);
+  cancel_manifest_ops(false, &tids);
+  osd->objecter->op_cancel(tids, -ECANCELED);
+
+  apply_and_flush_repops(false);
+  cancel_log_updates();
+  // we must remove PGRefs, so do this this prior to release_backoffs() callers
+  clear_backoffs();
+  // clean up snap trim references
+  snap_trimmer_machine.process_event(Reset());
+
+  pgbackend->on_change();
+
+  context_registry_on_change();
+  object_contexts.clear();
+
+  clear_async_reads();
+
+  osd->remote_reserver.cancel_reservation(info.pgid);
+  osd->local_reserver.cancel_reservation(info.pgid);
+
+  clear_primary_state();
+  cancel_recovery();
+
+  if (is_primary()) {
+    osd->clear_ready_to_merge(this);
+  }
+}
+
+void PrimaryLogPG::on_activate_complete()
+{
+  check_local();
+  // waiters
+  if (!recovery_state.needs_flush()) {
+    requeue_ops(waiting_for_peered);
+  } else if (!waiting_for_peered.empty()) {
+    dout(10) << __func__ << " flushes in progress, moving "
+	     << waiting_for_peered.size()
+	     << " items to waiting_for_flush"
+	     << dendl;
+    ceph_assert(waiting_for_flush.empty());
+    waiting_for_flush.swap(waiting_for_peered);
+  }
+
+
+  // all clean?
+  if (needs_recovery()) {
+    dout(10) << "activate not all replicas are up-to-date, queueing recovery" << dendl;
+    queue_peering_event(
+      PGPeeringEventRef(
+	std::make_shared<PGPeeringEvent>(
+	  get_osdmap_epoch(),
+	  get_osdmap_epoch(),
+	  PeeringState::DoRecovery())));
+  } else if (needs_backfill()) {
+    dout(10) << "activate queueing backfill" << dendl;
+    queue_peering_event(
+      PGPeeringEventRef(
+	std::make_shared<PGPeeringEvent>(
+	  get_osdmap_epoch(),
+	  get_osdmap_epoch(),
+	  PeeringState::RequestBackfill())));
+  } else {
+    dout(10) << "activate all replicas clean, no recovery" << dendl;
+    queue_peering_event(
+      PGPeeringEventRef(
+	std::make_shared<PGPeeringEvent>(
+	  get_osdmap_epoch(),
+	  get_osdmap_epoch(),
+	  PeeringState::AllReplicasRecovered())));
+  }
+
+  publish_stats_to_osd();
+
+  if (get_backfill_targets().size()) {
+    last_backfill_started = recovery_state.earliest_backfill();
+    new_backfill = true;
+    ceph_assert(!last_backfill_started.is_max());
+    dout(5) << __func__ << ": bft=" << get_backfill_targets()
+	   << " from " << last_backfill_started << dendl;
+    for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+	 i != get_backfill_targets().end();
+	 ++i) {
+      dout(5) << "target shard " << *i
+	     << " from " << recovery_state.get_peer_info(*i).last_backfill
+	     << dendl;
+    }
+  }
+
+  hit_set_setup();
+  agent_setup();
+}
+
+void PrimaryLogPG::on_change(ObjectStore::Transaction &t)
+{
+  dout(10) << __func__ << dendl;
+
+  if (hit_set && hit_set->insert_count() == 0) {
+    dout(20) << " discarding empty hit_set" << dendl;
+    hit_set_clear();
+  }
+
+  if (recovery_queued) {
+    recovery_queued = false;
+    osd->clear_queued_recovery(this);
+  }
+
+  // requeue everything in the reverse order they should be
+  // reexamined.
+  requeue_ops(waiting_for_peered);
+  requeue_ops(waiting_for_flush);
+  requeue_ops(waiting_for_active);
+  requeue_ops(waiting_for_readable);
+
+  vector<ceph_tid_t> tids;
+  cancel_copy_ops(is_primary(), &tids);
+  cancel_flush_ops(is_primary(), &tids);
+  cancel_proxy_ops(is_primary(), &tids);
+  cancel_manifest_ops(is_primary(), &tids);
+  osd->objecter->op_cancel(tids, -ECANCELED);
+
+  // requeue object waiters
+  for (auto& p : waiting_for_unreadable_object) {
+    release_backoffs(p.first);
+  }
+  if (is_primary()) {
+    requeue_object_waiters(waiting_for_unreadable_object);
+  } else {
+    waiting_for_unreadable_object.clear();
+  }
+  for (map<hobject_t,list<OpRequestRef>>::iterator p = waiting_for_degraded_object.begin();
+       p != waiting_for_degraded_object.end();
+       waiting_for_degraded_object.erase(p++)) {
+    release_backoffs(p->first);
+    if (is_primary())
+      requeue_ops(p->second);
+    else
+      p->second.clear();
+    finish_degraded_object(p->first);
+  }
+
+  // requeues waiting_for_scrub
+  m_scrubber->scrub_clear_state();
+
+  for (auto p = waiting_for_blocked_object.begin();
+       p != waiting_for_blocked_object.end();
+       waiting_for_blocked_object.erase(p++)) {
+    if (is_primary())
+      requeue_ops(p->second);
+    else
+      p->second.clear();
+  }
+  for (auto i = callbacks_for_degraded_object.begin();
+       i != callbacks_for_degraded_object.end();
+    ) {
+    finish_degraded_object((i++)->first);
+  }
+  ceph_assert(callbacks_for_degraded_object.empty());
+
+  if (is_primary()) {
+    requeue_ops(waiting_for_cache_not_full);
+  } else {
+    waiting_for_cache_not_full.clear();
+  }
+  objects_blocked_on_cache_full.clear();
+
+  for (list<pair<OpRequestRef, OpContext*> >::iterator i =
+         in_progress_async_reads.begin();
+       i != in_progress_async_reads.end();
+       in_progress_async_reads.erase(i++)) {
+    close_op_ctx(i->second);
+    if (is_primary())
+      requeue_op(i->first);
+  }
+
+  // this will requeue ops we were working on but didn't finish, and
+  // any dups
+  apply_and_flush_repops(is_primary());
+  cancel_log_updates();
+
+  // do this *after* apply_and_flush_repops so that we catch any newly
+  // registered watches.
+  context_registry_on_change();
+
+  pgbackend->on_change_cleanup(&t);
+  m_scrubber->cleanup_store(&t);
+  pgbackend->on_change();
+
+  // clear snap_trimmer state
+  snap_trimmer_machine.process_event(Reset());
+
+  debug_op_order.clear();
+  unstable_stats.clear();
+
+  // we don't want to cache object_contexts through the interval change
+  // NOTE: we actually assert that all currently live references are dead
+  // by the time the flush for the next interval completes.
+  object_contexts.clear();
+
+  // should have been cleared above by finishing all of the degraded objects
+  ceph_assert(objects_blocked_on_degraded_snap.empty());
+}
+
+void PrimaryLogPG::plpg_on_role_change()
+{
+  dout(10) << __func__ << dendl;
+  if (get_role() != 0 && hit_set) {
+    dout(10) << " clearing hit set" << dendl;
+    hit_set_clear();
+  }
+}
+
+void PrimaryLogPG::plpg_on_pool_change()
+{
+  dout(10) << __func__ << dendl;
+  // requeue cache full waiters just in case the cache_mode is
+  // changing away from writeback mode.  note that if we are not
+  // active the normal requeuing machinery is sufficient (and properly
+  // ordered).
+  if (is_active() &&
+      pool.info.cache_mode != pg_pool_t::CACHEMODE_WRITEBACK &&
+      !waiting_for_cache_not_full.empty()) {
+    dout(10) << __func__ << " requeuing full waiters (not in writeback) "
+	     << dendl;
+    requeue_ops(waiting_for_cache_not_full);
+    objects_blocked_on_cache_full.clear();
+  }
+  hit_set_setup();
+  agent_setup();
+}
+
+// clear state.  called on recovery completion AND cancellation.
+void PrimaryLogPG::_clear_recovery_state()
+{
+#ifdef DEBUG_RECOVERY_OIDS
+  recovering_oids.clear();
+#endif
+  dout(15) << __func__ << " flags: " << m_planned_scrub << dendl;
+
+  last_backfill_started = hobject_t();
+  set<hobject_t>::iterator i = backfills_in_flight.begin();
+  while (i != backfills_in_flight.end()) {
+    backfills_in_flight.erase(i++);
+  }
+
+  list<OpRequestRef> blocked_ops;
+  for (map<hobject_t, ObjectContextRef>::iterator i = recovering.begin();
+       i != recovering.end();
+       recovering.erase(i++)) {
+    if (i->second) {
+      i->second->drop_recovery_read(&blocked_ops);
+      requeue_ops(blocked_ops);
+    }
+  }
+  ceph_assert(backfills_in_flight.empty());
+  pending_backfill_updates.clear();
+  ceph_assert(recovering.empty());
+  pgbackend->clear_recovery_state();
+}
+
+void PrimaryLogPG::cancel_pull(const hobject_t &soid)
+{
+  dout(20) << __func__ << ": " << soid << dendl;
+  ceph_assert(recovering.count(soid));
+  ObjectContextRef obc = recovering[soid];
+  if (obc) {
+    list<OpRequestRef> blocked_ops;
+    obc->drop_recovery_read(&blocked_ops);
+    requeue_ops(blocked_ops);
+  }
+  recovering.erase(soid);
+  finish_recovery_op(soid);
+  release_backoffs(soid);
+  if (waiting_for_degraded_object.count(soid)) {
+    dout(20) << " kicking degraded waiters on " << soid << dendl;
+    requeue_ops(waiting_for_degraded_object[soid]);
+    waiting_for_degraded_object.erase(soid);
+  }
+  if (waiting_for_unreadable_object.count(soid)) {
+    dout(20) << " kicking unreadable waiters on " << soid << dendl;
+    requeue_ops(waiting_for_unreadable_object[soid]);
+    waiting_for_unreadable_object.erase(soid);
+  }
+  if (is_missing_object(soid))
+    recovery_state.set_last_requested(0);
+  finish_degraded_object(soid);
+}
+
+void PrimaryLogPG::check_recovery_sources(const OSDMapRef& osdmap)
+{
+  pgbackend->check_recovery_sources(osdmap);
+}
+
+bool PrimaryLogPG::start_recovery_ops(
+  uint64_t max,
+  ThreadPool::TPHandle &handle,
+  uint64_t *ops_started)
+{
+  uint64_t& started = *ops_started;
+  started = 0;
+  bool work_in_progress = false;
+  bool recovery_started = false;
+  ceph_assert(is_primary());
+  ceph_assert(is_peered());
+  ceph_assert(!recovery_state.is_deleting());
+
+  ceph_assert(recovery_queued);
+  recovery_queued = false;
+
+  if (!state_test(PG_STATE_RECOVERING) &&
+      !state_test(PG_STATE_BACKFILLING)) {
+    /* TODO: I think this case is broken and will make do_recovery()
+     * unhappy since we're returning false */
+    dout(10) << "recovery raced and were queued twice, ignoring!" << dendl;
+    return have_unfound();
+  }
+
+  const auto &missing = recovery_state.get_pg_log().get_missing();
+
+  uint64_t num_unfound = get_num_unfound();
+
+  if (!recovery_state.have_missing()) {
+    recovery_state.local_recovery_complete();
+  }
+
+  if (!missing.have_missing() || // Primary does not have missing
+      // or all of the missing objects are unfound.
+      recovery_state.all_missing_unfound()) {
+    // Recover the replicas.
+    started = recover_replicas(max, handle, &recovery_started);
+  }
+  if (!started) {
+    // We still have missing objects that we should grab from replicas.
+    started += recover_primary(max, handle);
+  }
+  if (!started && num_unfound != get_num_unfound()) {
+    // second chance to recovery replicas
+    started = recover_replicas(max, handle, &recovery_started);
+  }
+
+  if (started || recovery_started)
+    work_in_progress = true;
+
+  bool deferred_backfill = false;
+  if (recovering.empty() &&
+      state_test(PG_STATE_BACKFILLING) &&
+      !get_backfill_targets().empty() && started < max &&
+      missing.num_missing() == 0 &&
+      waiting_on_backfill.empty()) {
+    if (get_osdmap()->test_flag(CEPH_OSDMAP_NOBACKFILL)) {
+      dout(10) << "deferring backfill due to NOBACKFILL" << dendl;
+      deferred_backfill = true;
+    } else if (get_osdmap()->test_flag(CEPH_OSDMAP_NOREBALANCE) &&
+	       !is_degraded())  {
+      dout(10) << "deferring backfill due to NOREBALANCE" << dendl;
+      deferred_backfill = true;
+    } else if (!recovery_state.is_backfill_reserved()) {
+      /* DNMNOTE I think this branch is dead */
+      dout(10) << "deferring backfill due to !backfill_reserved" << dendl;
+      if (!backfill_reserving) {
+	dout(10) << "queueing RequestBackfill" << dendl;
+	backfill_reserving = true;
+	queue_peering_event(
+	  PGPeeringEventRef(
+	    std::make_shared<PGPeeringEvent>(
+	      get_osdmap_epoch(),
+	      get_osdmap_epoch(),
+	      PeeringState::RequestBackfill())));
+      }
+      deferred_backfill = true;
+    } else {
+      started += recover_backfill(max - started, handle, &work_in_progress);
+    }
+  }
+
+  dout(10) << " started " << started << dendl;
+  osd->logger->inc(l_osd_rop, started);
+
+  if (!recovering.empty() ||
+      work_in_progress || recovery_ops_active > 0 || deferred_backfill)
+    return !work_in_progress && have_unfound();
+
+  ceph_assert(recovering.empty());
+  ceph_assert(recovery_ops_active == 0);
+
+  dout(10) << __func__ << " needs_recovery: "
+	   << recovery_state.get_missing_loc().get_needs_recovery()
+	   << dendl;
+  dout(10) << __func__ << " missing_loc: "
+	   << recovery_state.get_missing_loc().get_missing_locs()
+	   << dendl;
+  int unfound = get_num_unfound();
+  if (unfound) {
+    dout(10) << " still have " << unfound << " unfound" << dendl;
+    return true;
+  }
+
+  if (missing.num_missing() > 0) {
+    // this shouldn't happen!
+    osd->clog->error() << info.pgid << " Unexpected Error: recovery ending with "
+		       << missing.num_missing() << ": " << missing.get_items();
+    return false;
+  }
+
+  if (needs_recovery()) {
+    // this shouldn't happen!
+    // We already checked num_missing() so we must have missing replicas
+    osd->clog->error() << info.pgid
+                       << " Unexpected Error: recovery ending with missing replicas";
+    return false;
+  }
+
+  if (state_test(PG_STATE_RECOVERING)) {
+    state_clear(PG_STATE_RECOVERING);
+    state_clear(PG_STATE_FORCED_RECOVERY);
+    if (needs_backfill()) {
+      dout(10) << "recovery done, queuing backfill" << dendl;
+      queue_peering_event(
+        PGPeeringEventRef(
+          std::make_shared<PGPeeringEvent>(
+            get_osdmap_epoch(),
+            get_osdmap_epoch(),
+            PeeringState::RequestBackfill())));
+    } else {
+      dout(10) << "recovery done, no backfill" << dendl;
+      state_clear(PG_STATE_FORCED_BACKFILL);
+      queue_peering_event(
+        PGPeeringEventRef(
+          std::make_shared<PGPeeringEvent>(
+            get_osdmap_epoch(),
+            get_osdmap_epoch(),
+            PeeringState::AllReplicasRecovered())));
+    }
+  } else { // backfilling
+    state_clear(PG_STATE_BACKFILLING);
+    state_clear(PG_STATE_FORCED_BACKFILL);
+    state_clear(PG_STATE_FORCED_RECOVERY);
+    dout(10) << "recovery done, backfill done" << dendl;
+    queue_peering_event(
+      PGPeeringEventRef(
+        std::make_shared<PGPeeringEvent>(
+          get_osdmap_epoch(),
+          get_osdmap_epoch(),
+          PeeringState::Backfilled())));
+  }
+
+  return false;
+}
+
+/**
+ * do one recovery op.
+ * return true if done, false if nothing left to do.
+ */
+uint64_t PrimaryLogPG::recover_primary(uint64_t max, ThreadPool::TPHandle &handle)
+{
+  ceph_assert(is_primary());
+
+  const auto &missing = recovery_state.get_pg_log().get_missing();
+
+  dout(10) << __func__ << " recovering " << recovering.size()
+           << " in pg,"
+           << " missing " << missing << dendl;
+
+  dout(25) << __func__ << " " << missing.get_items() << dendl;
+
+  // look at log!
+  pg_log_entry_t *latest = 0;
+  unsigned started = 0;
+  int skipped = 0;
+
+  PGBackend::RecoveryHandle *h = pgbackend->open_recovery_op();
+  map<version_t, hobject_t>::const_iterator p =
+    missing.get_rmissing().lower_bound(recovery_state.get_pg_log().get_log().last_requested);
+  while (p != missing.get_rmissing().end()) {
+    handle.reset_tp_timeout();
+    hobject_t soid;
+    version_t v = p->first;
+
+    auto it_objects = recovery_state.get_pg_log().get_log().objects.find(p->second);
+    if (it_objects != recovery_state.get_pg_log().get_log().objects.end()) {
+      latest = it_objects->second;
+      ceph_assert(latest->is_update() || latest->is_delete());
+      soid = latest->soid;
+    } else {
+      latest = 0;
+      soid = p->second;
+    }
+    const pg_missing_item& item = missing.get_items().find(p->second)->second;
+    ++p;
+
+    hobject_t head = soid.get_head();
+
+    eversion_t need = item.need;
+
+    dout(10) << __func__ << " "
+             << soid << " " << item.need
+	     << (missing.is_missing(soid) ? " (missing)":"")
+	     << (missing.is_missing(head) ? " (missing head)":"")
+             << (recovering.count(soid) ? " (recovering)":"")
+	     << (recovering.count(head) ? " (recovering head)":"")
+             << dendl;
+
+    if (latest) {
+      switch (latest->op) {
+      case pg_log_entry_t::CLONE:
+	/*
+	 * Handling for this special case removed for now, until we
+	 * can correctly construct an accurate SnapSet from the old
+	 * one.
+	 */
+	break;
+
+      case pg_log_entry_t::LOST_REVERT:
+	{
+	  if (item.have == latest->reverting_to) {
+	    ObjectContextRef obc = get_object_context(soid, true);
+
+	    if (obc->obs.oi.version == latest->version) {
+	      // I'm already reverting
+	      dout(10) << " already reverting " << soid << dendl;
+	    } else {
+	      dout(10) << " reverting " << soid << " to " << latest->prior_version << dendl;
+	      obc->obs.oi.version = latest->version;
+
+	      ObjectStore::Transaction t;
+	      bufferlist b2;
+	      obc->obs.oi.encode(
+		b2,
+		get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+	      ceph_assert(!pool.info.require_rollback());
+	      t.setattr(coll, ghobject_t(soid), OI_ATTR, b2);
+
+	      recovery_state.recover_got(
+		soid,
+		latest->version,
+		false,
+		t);
+
+	      ++active_pushes;
+
+	      t.register_on_applied(new C_OSD_AppliedRecoveredObject(this, obc));
+	      t.register_on_commit(new C_OSD_CommittedPushedObject(
+				     this,
+				     get_osdmap_epoch(),
+				     info.last_complete));
+	      osd->store->queue_transaction(ch, std::move(t));
+	      continue;
+	    }
+	  } else {
+	    /*
+	     * Pull the old version of the object.  Update missing_loc here to have the location
+	     * of the version we want.
+	     *
+	     * This doesn't use the usual missing_loc paths, but that's okay:
+	     *  - if we have it locally, we hit the case above, and go from there.
+	     *  - if we don't, we always pass through this case during recovery and set up the location
+	     *    properly.
+	     *  - this way we don't need to mangle the missing code to be general about needing an old
+	     *    version...
+	     */
+	    eversion_t alternate_need = latest->reverting_to;
+	    dout(10) << " need to pull prior_version " << alternate_need << " for revert " << item << dendl;
+
+	    set<pg_shard_t> good_peers;
+	    for (auto p = recovery_state.get_peer_missing().begin();
+		 p != recovery_state.get_peer_missing().end();
+		 ++p) {
+	      if (p->second.is_missing(soid, need) &&
+		  p->second.get_items().at(soid).have == alternate_need) {
+		good_peers.insert(p->first);
+	      }
+	    }
+	    recovery_state.set_revert_with_targets(
+	      soid,
+	      good_peers);
+	    dout(10) << " will pull " << alternate_need << " or " << need
+		     << " from one of "
+		     << recovery_state.get_missing_loc().get_locations(soid)
+		     << dendl;
+	  }
+	}
+	break;
+      }
+    }
+
+    if (!recovering.count(soid)) {
+      if (recovering.count(head)) {
+	++skipped;
+      } else {
+	int r = recover_missing(
+	  soid, need, get_recovery_op_priority(), h);
+	switch (r) {
+	case PULL_YES:
+	  ++started;
+	  break;
+	case PULL_HEAD:
+	  ++started;
+	case PULL_NONE:
+	  ++skipped;
+	  break;
+	default:
+	  ceph_abort();
+	}
+	if (started >= max)
+	  break;
+      }
+    }
+
+    // only advance last_requested if we haven't skipped anything
+    if (!skipped)
+      recovery_state.set_last_requested(v);
+  }
+
+  pgbackend->run_recovery_op(h, get_recovery_op_priority());
+  return started;
+}
+
+bool PrimaryLogPG::primary_error(
+  const hobject_t& soid, eversion_t v)
+{
+  recovery_state.force_object_missing(pg_whoami, soid, v);
+  bool uhoh = recovery_state.get_missing_loc().is_unfound(soid);
+  if (uhoh)
+    osd->clog->error() << info.pgid << " missing primary copy of "
+		       << soid << ", unfound";
+  else
+    osd->clog->error() << info.pgid << " missing primary copy of "
+		       << soid
+		       << ", will try copies on "
+		       << recovery_state.get_missing_loc().get_locations(soid);
+  return uhoh;
+}
+
+int PrimaryLogPG::prep_object_replica_deletes(
+  const hobject_t& soid, eversion_t v,
+  PGBackend::RecoveryHandle *h,
+  bool *work_started)
+{
+  ceph_assert(is_primary());
+  dout(10) << __func__ << ": on " << soid << dendl;
+
+  ObjectContextRef obc = get_object_context(soid, false);
+  if (obc) {
+    if (!obc->get_recovery_read()) {
+      dout(20) << "replica delete delayed on " << soid
+	       << "; could not get rw_manager lock" << dendl;
+      *work_started = true;
+      return 0;
+    } else {
+      dout(20) << "replica delete got recovery read lock on " << soid
+	       << dendl;
+    }
+  }
+
+  start_recovery_op(soid);
+  ceph_assert(!recovering.count(soid));
+  if (!obc)
+    recovering.insert(make_pair(soid, ObjectContextRef()));
+  else
+    recovering.insert(make_pair(soid, obc));
+
+  pgbackend->recover_delete_object(soid, v, h);
+  return 1;
+}
+
+int PrimaryLogPG::prep_object_replica_pushes(
+  const hobject_t& soid, eversion_t v,
+  PGBackend::RecoveryHandle *h,
+  bool *work_started)
+{
+  ceph_assert(is_primary());
+  dout(10) << __func__ << ": on " << soid << dendl;
+
+  if (soid.snap && soid.snap < CEPH_NOSNAP) {
+    // do we have the head and/or snapdir?
+    hobject_t head = soid.get_head();
+    if (recovery_state.get_pg_log().get_missing().is_missing(head)) {
+      if (recovering.count(head)) {
+	dout(10) << " missing but already recovering head " << head << dendl;
+	return 0;
+      } else {
+	int r = recover_missing(
+	    head, recovery_state.get_pg_log().get_missing().get_items().find(head)->second.need,
+	    get_recovery_op_priority(), h);
+	if (r != PULL_NONE)
+	  return 1;
+	return 0;
+      }
+    }
+  }
+
+  // NOTE: we know we will get a valid oloc off of disk here.
+  ObjectContextRef obc = get_object_context(soid, false);
+  if (!obc) {
+    primary_error(soid, v);
+    return 0;
+  }
+
+  if (!obc->get_recovery_read()) {
+    dout(20) << "recovery delayed on " << soid
+	     << "; could not get rw_manager lock" << dendl;
+    *work_started = true;
+    return 0;
+  } else {
+    dout(20) << "recovery got recovery read lock on " << soid
+	     << dendl;
+  }
+
+  start_recovery_op(soid);
+  ceph_assert(!recovering.count(soid));
+  recovering.insert(make_pair(soid, obc));
+
+  int r = pgbackend->recover_object(
+    soid,
+    v,
+    ObjectContextRef(),
+    obc, // has snapset context
+    h);
+  if (r < 0) {
+    dout(0) << __func__ << " Error " << r << " on oid " << soid << dendl;
+    on_failed_pull({ pg_whoami }, soid, v);
+    return 0;
+  }
+  return 1;
+}
+
+uint64_t PrimaryLogPG::recover_replicas(uint64_t max, ThreadPool::TPHandle &handle,
+  bool *work_started)
+{
+  dout(10) << __func__ << "(" << max << ")" << dendl;
+  uint64_t started = 0;
+
+  PGBackend::RecoveryHandle *h = pgbackend->open_recovery_op();
+
+  // this is FAR from an optimal recovery order.  pretty lame, really.
+  ceph_assert(!get_acting_recovery_backfill().empty());
+  // choose replicas to recover, replica has the shortest missing list first
+  // so we can bring it back to normal ASAP
+  std::vector<std::pair<unsigned int, pg_shard_t>> replicas_by_num_missing,
+    async_by_num_missing;
+  replicas_by_num_missing.reserve(get_acting_recovery_backfill().size() - 1);
+  for (auto &p: get_acting_recovery_backfill()) {
+    if (p == get_primary()) {
+      continue;
+    }
+    auto pm = recovery_state.get_peer_missing().find(p);
+    ceph_assert(pm != recovery_state.get_peer_missing().end());
+    auto nm = pm->second.num_missing();
+    if (nm != 0) {
+      if (is_async_recovery_target(p)) {
+        async_by_num_missing.push_back(make_pair(nm, p));
+      } else {
+        replicas_by_num_missing.push_back(make_pair(nm, p));
+      }
+    }
+  }
+  // sort by number of missing objects, in ascending order.
+  auto func = [](const std::pair<unsigned int, pg_shard_t> &lhs,
+                 const std::pair<unsigned int, pg_shard_t> &rhs) {
+    return lhs.first < rhs.first;
+  };
+  // acting goes first
+  std::sort(replicas_by_num_missing.begin(), replicas_by_num_missing.end(), func);
+  // then async_recovery_targets
+  std::sort(async_by_num_missing.begin(), async_by_num_missing.end(), func);
+  replicas_by_num_missing.insert(replicas_by_num_missing.end(),
+    async_by_num_missing.begin(), async_by_num_missing.end());
+  for (auto &replica: replicas_by_num_missing) {
+    pg_shard_t &peer = replica.second;
+    ceph_assert(peer != get_primary());
+    auto pm = recovery_state.get_peer_missing().find(peer);
+    ceph_assert(pm != recovery_state.get_peer_missing().end());
+    size_t m_sz = pm->second.num_missing();
+
+    dout(10) << " peer osd." << peer << " missing " << m_sz << " objects." << dendl;
+    dout(20) << " peer osd." << peer << " missing " << pm->second.get_items() << dendl;
+
+    // oldest first!
+    const pg_missing_t &m(pm->second);
+    for (map<version_t, hobject_t>::const_iterator p = m.get_rmissing().begin();
+	 p != m.get_rmissing().end() && started < max;
+	   ++p) {
+      handle.reset_tp_timeout();
+      const hobject_t soid(p->second);
+
+      if (recovery_state.get_missing_loc().is_unfound(soid)) {
+	dout(10) << __func__ << ": " << soid << " still unfound" << dendl;
+	continue;
+      }
+
+      const pg_info_t &pi = recovery_state.get_peer_info(peer);
+      if (soid > pi.last_backfill) {
+	if (!recovering.count(soid)) {
+          derr << __func__ << ": object " << soid << " last_backfill "
+	       << pi.last_backfill << dendl;
+	  derr << __func__ << ": object added to missing set for backfill, but "
+	       << "is not in recovering, error!" << dendl;
+	  ceph_abort();
+	}
+	continue;
+      }
+
+      if (recovering.count(soid)) {
+	dout(10) << __func__ << ": already recovering " << soid << dendl;
+	continue;
+      }
+
+      if (recovery_state.get_missing_loc().is_deleted(soid)) {
+	dout(10) << __func__ << ": " << soid << " is a delete, removing" << dendl;
+	map<hobject_t,pg_missing_item>::const_iterator r = m.get_items().find(soid);
+	started += prep_object_replica_deletes(soid, r->second.need, h, work_started);
+	continue;
+      }
+
+      if (soid.is_snap() &&
+	  recovery_state.get_pg_log().get_missing().is_missing(
+	    soid.get_head())) {
+	dout(10) << __func__ << ": " << soid.get_head()
+		 << " still missing on primary" << dendl;
+	continue;
+      }
+
+      if (recovery_state.get_pg_log().get_missing().is_missing(soid)) {
+	dout(10) << __func__ << ": " << soid << " still missing on primary" << dendl;
+	continue;
+      }
+
+      dout(10) << __func__ << ": recover_object_replicas(" << soid << ")" << dendl;
+      map<hobject_t,pg_missing_item>::const_iterator r = m.get_items().find(soid);
+      started += prep_object_replica_pushes(soid, r->second.need, h, work_started);
+    }
+  }
+
+  pgbackend->run_recovery_op(h, get_recovery_op_priority());
+  return started;
+}
+
+hobject_t PrimaryLogPG::earliest_peer_backfill() const
+{
+  hobject_t e = hobject_t::get_max();
+  for (const pg_shard_t& peer : get_backfill_targets()) {
+    const auto iter = peer_backfill_info.find(peer);
+    ceph_assert(iter != peer_backfill_info.end());
+    e = std::min(e, iter->second.begin);
+  }
+  return e;
+}
+
+bool PrimaryLogPG::all_peer_done() const
+{
+  // Primary hasn't got any more objects
+  ceph_assert(backfill_info.empty());
+
+  for (const pg_shard_t& bt : get_backfill_targets()) {
+    const auto piter = peer_backfill_info.find(bt);
+    ceph_assert(piter != peer_backfill_info.end());
+    const BackfillInterval& pbi = piter->second;
+    // See if peer has more to process
+    if (!pbi.extends_to_end() || !pbi.empty())
+	return false;
+  }
+  return true;
+}
+
+/**
+ * recover_backfill
+ *
+ * Invariants:
+ *
+ * backfilled: fully pushed to replica or present in replica's missing set (both
+ * our copy and theirs).
+ *
+ * All objects on a backfill_target in
+ * [MIN,peer_backfill_info[backfill_target].begin) are valid; logically-removed
+ * objects have been actually deleted and all logically-valid objects are replicated.
+ * There may be PG objects in this interval yet to be backfilled.
+ *
+ * All objects in PG in [MIN,backfill_info.begin) have been backfilled to all
+ * backfill_targets.  There may be objects on backfill_target(s) yet to be deleted.
+ *
+ * For a backfill target, all objects < std::min(peer_backfill_info[target].begin,
+ *     backfill_info.begin) in PG are backfilled.  No deleted objects in this
+ * interval remain on the backfill target.
+ *
+ * For a backfill target, all objects <= peer_info[target].last_backfill
+ * have been backfilled to target
+ *
+ * There *MAY* be missing/outdated objects between last_backfill_started and
+ * std::min(peer_backfill_info[*].begin, backfill_info.begin) in the event that client
+ * io created objects since the last scan.  For this reason, we call
+ * update_range() again before continuing backfill.
+ */
+uint64_t PrimaryLogPG::recover_backfill(
+  uint64_t max,
+  ThreadPool::TPHandle &handle, bool *work_started)
+{
+  dout(10) << __func__ << " (" << max << ")"
+           << " bft=" << get_backfill_targets()
+	   << " last_backfill_started " << last_backfill_started
+	   << (new_backfill ? " new_backfill":"")
+	   << dendl;
+  ceph_assert(!get_backfill_targets().empty());
+
+  // Initialize from prior backfill state
+  if (new_backfill) {
+    // on_activate() was called prior to getting here
+    ceph_assert(last_backfill_started == recovery_state.earliest_backfill());
+    new_backfill = false;
+
+    // initialize BackfillIntervals
+    for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+	 i != get_backfill_targets().end();
+	 ++i) {
+      peer_backfill_info[*i].reset(
+	recovery_state.get_peer_info(*i).last_backfill);
+    }
+    backfill_info.reset(last_backfill_started);
+
+    backfills_in_flight.clear();
+    pending_backfill_updates.clear();
+  }
+
+  for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+       i != get_backfill_targets().end();
+       ++i) {
+    dout(10) << "peer osd." << *i
+	   << " info " << recovery_state.get_peer_info(*i)
+	   << " interval " << peer_backfill_info[*i].begin
+	   << "-" << peer_backfill_info[*i].end
+	   << " " << peer_backfill_info[*i].objects.size() << " objects"
+	   << dendl;
+  }
+
+  // update our local interval to cope with recent changes
+  backfill_info.begin = last_backfill_started;
+  update_range(&backfill_info, handle);
+
+  unsigned ops = 0;
+  vector<boost::tuple<hobject_t, eversion_t, pg_shard_t> > to_remove;
+  set<hobject_t> add_to_stat;
+
+  for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+       i != get_backfill_targets().end();
+       ++i) {
+    peer_backfill_info[*i].trim_to(
+      std::max(
+	recovery_state.get_peer_info(*i).last_backfill,
+	last_backfill_started));
+  }
+  backfill_info.trim_to(last_backfill_started);
+
+  PGBackend::RecoveryHandle *h = pgbackend->open_recovery_op();
+  while (ops < max) {
+    if (backfill_info.begin <= earliest_peer_backfill() &&
+	!backfill_info.extends_to_end() && backfill_info.empty()) {
+      hobject_t next = backfill_info.end;
+      backfill_info.reset(next);
+      backfill_info.end = hobject_t::get_max();
+      update_range(&backfill_info, handle);
+      backfill_info.trim();
+    }
+
+    dout(20) << "   my backfill interval " << backfill_info << dendl;
+
+    bool sent_scan = false;
+    for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+	 i != get_backfill_targets().end();
+	 ++i) {
+      pg_shard_t bt = *i;
+      BackfillInterval& pbi = peer_backfill_info[bt];
+
+      dout(20) << " peer shard " << bt << " backfill " << pbi << dendl;
+      if (pbi.begin <= backfill_info.begin &&
+	  !pbi.extends_to_end() && pbi.empty()) {
+	dout(10) << " scanning peer osd." << bt << " from " << pbi.end << dendl;
+	epoch_t e = get_osdmap_epoch();
+	MOSDPGScan *m = new MOSDPGScan(
+	  MOSDPGScan::OP_SCAN_GET_DIGEST, pg_whoami, e, get_last_peering_reset(),
+	  spg_t(info.pgid.pgid, bt.shard),
+	  pbi.end, hobject_t());
+	osd->send_message_osd_cluster(bt.osd, m, get_osdmap_epoch());
+	ceph_assert(waiting_on_backfill.find(bt) == waiting_on_backfill.end());
+	waiting_on_backfill.insert(bt);
+        sent_scan = true;
+      }
+    }
+
+    // Count simultaneous scans as a single op and let those complete
+    if (sent_scan) {
+      ops++;
+      start_recovery_op(hobject_t::get_max()); // XXX: was pbi.end
+      break;
+    }
+
+    if (backfill_info.empty() && all_peer_done()) {
+      dout(10) << " reached end for both local and all peers" << dendl;
+      break;
+    }
+
+    // Get object within set of peers to operate on and
+    // the set of targets for which that object applies.
+    hobject_t check = earliest_peer_backfill();
+
+    if (check < backfill_info.begin) {
+
+      set<pg_shard_t> check_targets;
+      for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+	   i != get_backfill_targets().end();
+	   ++i) {
+        pg_shard_t bt = *i;
+        BackfillInterval& pbi = peer_backfill_info[bt];
+        if (pbi.begin == check)
+          check_targets.insert(bt);
+      }
+      ceph_assert(!check_targets.empty());
+
+      dout(20) << " BACKFILL removing " << check
+	       << " from peers " << check_targets << dendl;
+      for (set<pg_shard_t>::iterator i = check_targets.begin();
+	   i != check_targets.end();
+	   ++i) {
+        pg_shard_t bt = *i;
+        BackfillInterval& pbi = peer_backfill_info[bt];
+        ceph_assert(pbi.begin == check);
+
+        to_remove.push_back(boost::make_tuple(check, pbi.objects.begin()->second, bt));
+        pbi.pop_front();
+      }
+
+      last_backfill_started = check;
+
+      // Don't increment ops here because deletions
+      // are cheap and not replied to unlike real recovery_ops,
+      // and we can't increment ops without requeueing ourself
+      // for recovery.
+    } else {
+      eversion_t& obj_v = backfill_info.objects.begin()->second;
+
+      vector<pg_shard_t> need_ver_targs, missing_targs, keep_ver_targs, skip_targs;
+      for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+	   i != get_backfill_targets().end();
+	   ++i) {
+	pg_shard_t bt = *i;
+	BackfillInterval& pbi = peer_backfill_info[bt];
+        // Find all check peers that have the wrong version
+	if (check == backfill_info.begin && check == pbi.begin) {
+	  if (pbi.objects.begin()->second != obj_v) {
+	    need_ver_targs.push_back(bt);
+	  } else {
+	    keep_ver_targs.push_back(bt);
+	  }
+        } else {
+	  const pg_info_t& pinfo = recovery_state.get_peer_info(bt);
+
+          // Only include peers that we've caught up to their backfill line
+	  // otherwise, they only appear to be missing this object
+	  // because their pbi.begin > backfill_info.begin.
+          if (backfill_info.begin > pinfo.last_backfill)
+	    missing_targs.push_back(bt);
+	  else
+	    skip_targs.push_back(bt);
+	}
+      }
+
+      if (!keep_ver_targs.empty()) {
+        // These peers have version obj_v
+	dout(20) << " BACKFILL keeping " << check
+		 << " with ver " << obj_v
+		 << " on peers " << keep_ver_targs << dendl;
+	//assert(!waiting_for_degraded_object.count(check));
+      }
+      if (!need_ver_targs.empty() || !missing_targs.empty()) {
+	ObjectContextRef obc = get_object_context(backfill_info.begin, false);
+	ceph_assert(obc);
+	if (obc->get_recovery_read()) {
+	  if (!need_ver_targs.empty()) {
+	    dout(20) << " BACKFILL replacing " << check
+		   << " with ver " << obj_v
+		   << " to peers " << need_ver_targs << dendl;
+	  }
+	  if (!missing_targs.empty()) {
+	    dout(20) << " BACKFILL pushing " << backfill_info.begin
+	         << " with ver " << obj_v
+	         << " to peers " << missing_targs << dendl;
+	  }
+	  vector<pg_shard_t> all_push = need_ver_targs;
+	  all_push.insert(all_push.end(), missing_targs.begin(), missing_targs.end());
+
+	  handle.reset_tp_timeout();
+	  int r = prep_backfill_object_push(backfill_info.begin, obj_v, obc, all_push, h);
+	  if (r < 0) {
+	    *work_started = true;
+	    dout(0) << __func__ << " Error " << r << " trying to backfill " << backfill_info.begin << dendl;
+	    break;
+	  }
+	  ops++;
+	} else {
+	  *work_started = true;
+	  dout(20) << "backfill blocking on " << backfill_info.begin
+		   << "; could not get rw_manager lock" << dendl;
+	  break;
+	}
+      }
+      dout(20) << "need_ver_targs=" << need_ver_targs
+	       << " keep_ver_targs=" << keep_ver_targs << dendl;
+      dout(20) << "backfill_targets=" << get_backfill_targets()
+	       << " missing_targs=" << missing_targs
+	       << " skip_targs=" << skip_targs << dendl;
+
+      last_backfill_started = backfill_info.begin;
+      add_to_stat.insert(backfill_info.begin); // XXX: Only one for all pushes?
+      backfill_info.pop_front();
+      vector<pg_shard_t> check_targets = need_ver_targs;
+      check_targets.insert(check_targets.end(), keep_ver_targs.begin(), keep_ver_targs.end());
+      for (vector<pg_shard_t>::iterator i = check_targets.begin();
+	   i != check_targets.end();
+	   ++i) {
+        pg_shard_t bt = *i;
+        BackfillInterval& pbi = peer_backfill_info[bt];
+        pbi.pop_front();
+      }
+    }
+  }
+
+  for (set<hobject_t>::iterator i = add_to_stat.begin();
+       i != add_to_stat.end();
+       ++i) {
+    ObjectContextRef obc = get_object_context(*i, false);
+    ceph_assert(obc);
+    pg_stat_t stat;
+    add_object_context_to_pg_stat(obc, &stat);
+    pending_backfill_updates[*i] = stat;
+  }
+  map<pg_shard_t,MOSDPGBackfillRemove*> reqs;
+  for (unsigned i = 0; i < to_remove.size(); ++i) {
+    handle.reset_tp_timeout();
+    const hobject_t& oid = to_remove[i].get<0>();
+    eversion_t v = to_remove[i].get<1>();
+    pg_shard_t peer = to_remove[i].get<2>();
+    MOSDPGBackfillRemove *m;
+    auto it = reqs.find(peer);
+    if (it != reqs.end()) {
+      m = it->second;
+    } else {
+      m = reqs[peer] = new MOSDPGBackfillRemove(
+	spg_t(info.pgid.pgid, peer.shard),
+	get_osdmap_epoch());
+    }
+    m->ls.push_back(make_pair(oid, v));
+
+    if (oid <= last_backfill_started)
+      pending_backfill_updates[oid]; // add empty stat!
+  }
+  for (auto p : reqs) {
+    osd->send_message_osd_cluster(p.first.osd, p.second,
+				  get_osdmap_epoch());
+  }
+
+  pgbackend->run_recovery_op(h, get_recovery_op_priority());
+
+  hobject_t backfill_pos =
+    std::min(backfill_info.begin, earliest_peer_backfill());
+  dout(5) << "backfill_pos is " << backfill_pos << dendl;
+  for (set<hobject_t>::iterator i = backfills_in_flight.begin();
+       i != backfills_in_flight.end();
+       ++i) {
+    dout(20) << *i << " is still in flight" << dendl;
+  }
+
+  hobject_t next_backfill_to_complete = backfills_in_flight.empty() ?
+    backfill_pos : *(backfills_in_flight.begin());
+  hobject_t new_last_backfill = recovery_state.earliest_backfill();
+  dout(10) << "starting new_last_backfill at " << new_last_backfill << dendl;
+  for (map<hobject_t, pg_stat_t>::iterator i =
+	 pending_backfill_updates.begin();
+       i != pending_backfill_updates.end() &&
+	 i->first < next_backfill_to_complete;
+       pending_backfill_updates.erase(i++)) {
+    dout(20) << " pending_backfill_update " << i->first << dendl;
+    ceph_assert(i->first > new_last_backfill);
+    // carried from a previous round – if we are here, then we had to
+    // be requeued (by e.g. on_global_recover()) and those operations
+    // are done.
+    recovery_state.update_complete_backfill_object_stats(
+      i->first,
+      i->second);
+    new_last_backfill = i->first;
+  }
+  dout(10) << "possible new_last_backfill at " << new_last_backfill << dendl;
+
+  ceph_assert(!pending_backfill_updates.empty() ||
+	 new_last_backfill == last_backfill_started);
+  if (pending_backfill_updates.empty() &&
+      backfill_pos.is_max()) {
+    ceph_assert(backfills_in_flight.empty());
+    new_last_backfill = backfill_pos;
+    last_backfill_started = backfill_pos;
+  }
+  dout(10) << "final new_last_backfill at " << new_last_backfill << dendl;
+
+  // If new_last_backfill == MAX, then we will send OP_BACKFILL_FINISH to
+  // all the backfill targets.  Otherwise, we will move last_backfill up on
+  // those targets need it and send OP_BACKFILL_PROGRESS to them.
+  for (set<pg_shard_t>::const_iterator i = get_backfill_targets().begin();
+       i != get_backfill_targets().end();
+       ++i) {
+    pg_shard_t bt = *i;
+    const pg_info_t& pinfo = recovery_state.get_peer_info(bt);
+
+    if (new_last_backfill > pinfo.last_backfill) {
+      recovery_state.update_peer_last_backfill(bt, new_last_backfill);
+      epoch_t e = get_osdmap_epoch();
+      MOSDPGBackfill *m = NULL;
+      if (pinfo.last_backfill.is_max()) {
+        m = new MOSDPGBackfill(
+	  MOSDPGBackfill::OP_BACKFILL_FINISH,
+	  e,
+	  get_last_peering_reset(),
+	  spg_t(info.pgid.pgid, bt.shard));
+        // Use default priority here, must match sub_op priority
+        start_recovery_op(hobject_t::get_max());
+      } else {
+        m = new MOSDPGBackfill(
+	  MOSDPGBackfill::OP_BACKFILL_PROGRESS,
+	  e,
+	  get_last_peering_reset(),
+	  spg_t(info.pgid.pgid, bt.shard));
+        // Use default priority here, must match sub_op priority
+      }
+      m->last_backfill = pinfo.last_backfill;
+      m->stats = pinfo.stats;
+      osd->send_message_osd_cluster(bt.osd, m, get_osdmap_epoch());
+      dout(10) << " peer " << bt
+	       << " num_objects now " << pinfo.stats.stats.sum.num_objects
+	       << " / " << info.stats.stats.sum.num_objects << dendl;
+    }
+  }
+
+  if (ops)
+    *work_started = true;
+  return ops;
+}
+
+int PrimaryLogPG::prep_backfill_object_push(
+  hobject_t oid, eversion_t v,
+  ObjectContextRef obc,
+  vector<pg_shard_t> peers,
+  PGBackend::RecoveryHandle *h)
+{
+  dout(10) << __func__ << " " << oid << " v " << v << " to peers " << peers << dendl;
+  ceph_assert(!peers.empty());
+
+  backfills_in_flight.insert(oid);
+  recovery_state.prepare_backfill_for_missing(oid, v, peers);
+
+  ceph_assert(!recovering.count(oid));
+
+  start_recovery_op(oid);
+  recovering.insert(make_pair(oid, obc));
+
+  int r = pgbackend->recover_object(
+    oid,
+    v,
+    ObjectContextRef(),
+    obc,
+    h);
+  if (r < 0) {
+    dout(0) << __func__ << " Error " << r << " on oid " << oid << dendl;
+    on_failed_pull({ pg_whoami }, oid, v);
+  }
+  return r;
+}
+
+void PrimaryLogPG::update_range(
+  BackfillInterval *bi,
+  ThreadPool::TPHandle &handle)
+{
+  int local_min = cct->_conf->osd_backfill_scan_min;
+  int local_max = cct->_conf->osd_backfill_scan_max;
+
+  if (bi->version < info.log_tail) {
+    dout(10) << __func__<< ": bi is old, rescanning local backfill_info"
+	     << dendl;
+    bi->version = info.last_update;
+    scan_range(local_min, local_max, bi, handle);
+  }
+
+  if (bi->version >= projected_last_update) {
+    dout(10) << __func__<< ": bi is current " << dendl;
+    ceph_assert(bi->version == projected_last_update);
+  } else if (bi->version >= info.log_tail) {
+    if (recovery_state.get_pg_log().get_log().empty() && projected_log.empty()) {
+      /* Because we don't move log_tail on split, the log might be
+       * empty even if log_tail != last_update.  However, the only
+       * way to get here with an empty log is if log_tail is actually
+       * eversion_t(), because otherwise the entry which changed
+       * last_update since the last scan would have to be present.
+       */
+      ceph_assert(bi->version == eversion_t());
+      return;
+    }
+
+    dout(10) << __func__<< ": bi is old, (" << bi->version
+	     << ") can be updated with log to projected_last_update "
+	     << projected_last_update << dendl;
+
+    auto func = [&](const pg_log_entry_t &e) {
+      dout(10) << __func__ << ": updating from version " << e.version
+               << dendl;
+      const hobject_t &soid = e.soid;
+      if (soid >= bi->begin &&
+	  soid < bi->end) {
+	if (e.is_update()) {
+	  dout(10) << __func__ << ": " << e.soid << " updated to version "
+		   << e.version << dendl;
+	  bi->objects.erase(e.soid);
+	  bi->objects.insert(
+	    make_pair(
+	      e.soid,
+	      e.version));
+	} else if (e.is_delete()) {
+	  dout(10) << __func__ << ": " << e.soid << " removed" << dendl;
+	  bi->objects.erase(e.soid);
+	}
+      }
+    };
+    dout(10) << "scanning pg log first" << dendl;
+    recovery_state.get_pg_log().get_log().scan_log_after(bi->version, func);
+    dout(10) << "scanning projected log" << dendl;
+    projected_log.scan_log_after(bi->version, func);
+    bi->version = projected_last_update;
+  } else {
+    ceph_abort_msg("scan_range should have raised bi->version past log_tail");
+  }
+}
+
+void PrimaryLogPG::scan_range(
+  int min, int max, BackfillInterval *bi,
+  ThreadPool::TPHandle &handle)
+{
+  ceph_assert(is_locked());
+  dout(10) << "scan_range from " << bi->begin << dendl;
+  bi->clear_objects();
+
+  vector<hobject_t> ls;
+  ls.reserve(max);
+  int r = pgbackend->objects_list_partial(bi->begin, min, max, &ls, &bi->end);
+  ceph_assert(r >= 0);
+  dout(10) << " got " << ls.size() << " items, next " << bi->end << dendl;
+  dout(20) << ls << dendl;
+
+  for (vector<hobject_t>::iterator p = ls.begin(); p != ls.end(); ++p) {
+    handle.reset_tp_timeout();
+    ObjectContextRef obc;
+    if (is_primary())
+      obc = object_contexts.lookup(*p);
+    if (obc) {
+      if (!obc->obs.exists) {
+	/* If the object does not exist here, it must have been removed
+	 * between the collection_list_partial and here.  This can happen
+	 * for the first item in the range, which is usually last_backfill.
+	 */
+	continue;
+      }
+      bi->objects[*p] = obc->obs.oi.version;
+      dout(20) << "  " << *p << " " << obc->obs.oi.version << dendl;
+    } else {
+      bufferlist bl;
+      int r = pgbackend->objects_get_attr(*p, OI_ATTR, &bl);
+      /* If the object does not exist here, it must have been removed
+       * between the collection_list_partial and here.  This can happen
+       * for the first item in the range, which is usually last_backfill.
+       */
+      if (r == -ENOENT)
+	continue;
+
+      ceph_assert(r >= 0);
+      object_info_t oi(bl);
+      bi->objects[*p] = oi.version;
+      dout(20) << "  " << *p << " " << oi.version << dendl;
+    }
+  }
+}
+
+
+/** check_local
+ *
+ * verifies that stray objects have been deleted
+ */
+void PrimaryLogPG::check_local()
+{
+  dout(10) << __func__ << dendl;
+
+  ceph_assert(
+    info.last_update >=
+    recovery_state.get_pg_log().get_tail());  // otherwise we need some help!
+
+  if (!cct->_conf->osd_debug_verify_stray_on_activate)
+    return;
+
+  // just scan the log.
+  set<hobject_t> did;
+  for (list<pg_log_entry_t>::const_reverse_iterator p = recovery_state.get_pg_log().get_log().log.rbegin();
+       p != recovery_state.get_pg_log().get_log().log.rend();
+       ++p) {
+    if (did.count(p->soid))
+      continue;
+    did.insert(p->soid);
+
+    if (p->is_delete() && !is_missing_object(p->soid)) {
+      dout(10) << " checking " << p->soid
+	       << " at " << p->version << dendl;
+      struct stat st;
+      int r = osd->store->stat(
+	ch,
+	ghobject_t(p->soid, ghobject_t::NO_GEN, pg_whoami.shard),
+	&st);
+      if (r != -ENOENT) {
+	derr << __func__ << " " << p->soid << " exists, but should have been "
+	     << "deleted" << dendl;
+	ceph_abort_msg("erroneously present object");
+      }
+    } else {
+      // ignore old(+missing) objects
+    }
+  }
+}
+
+
+
+// ===========================
+// hit sets
+
+hobject_t PrimaryLogPG::get_hit_set_current_object(utime_t stamp)
+{
+  ostringstream ss;
+  ss << "hit_set_" << info.pgid.pgid << "_current_" << stamp;
+  hobject_t hoid(sobject_t(ss.str(), CEPH_NOSNAP), "",
+		 info.pgid.ps(), info.pgid.pool(),
+		 cct->_conf->osd_hit_set_namespace);
+  dout(20) << __func__ << " " << hoid << dendl;
+  return hoid;
+}
+
+hobject_t PrimaryLogPG::get_hit_set_archive_object(utime_t start,
+						   utime_t end,
+						   bool using_gmt)
+{
+  ostringstream ss;
+  ss << "hit_set_" << info.pgid.pgid << "_archive_";
+  if (using_gmt) {
+    start.gmtime(ss, true /* legacy pre-octopus form */) << "_";
+    end.gmtime(ss, true /* legacy pre-octopus form */);
+  } else {
+    start.localtime(ss, true /* legacy pre-octopus form */) << "_";
+    end.localtime(ss, true /* legacy pre-octopus form */);
+  }
+  hobject_t hoid(sobject_t(ss.str(), CEPH_NOSNAP), "",
+		 info.pgid.ps(), info.pgid.pool(),
+		 cct->_conf->osd_hit_set_namespace);
+  dout(20) << __func__ << " " << hoid << dendl;
+  return hoid;
+}
+
+void PrimaryLogPG::hit_set_clear()
+{
+  dout(20) << __func__ << dendl;
+  hit_set.reset();
+  hit_set_start_stamp = utime_t();
+}
+
+void PrimaryLogPG::hit_set_setup()
+{
+  if (!is_active() ||
+      !is_primary()) {
+    hit_set_clear();
+    return;
+  }
+
+  if (is_active() && is_primary() &&
+      (!pool.info.hit_set_count ||
+       !pool.info.hit_set_period ||
+       pool.info.hit_set_params.get_type() == HitSet::TYPE_NONE)) {
+    hit_set_clear();
+
+    // only primary is allowed to remove all the hit set objects
+    hit_set_remove_all();
+    return;
+  }
+
+  // FIXME: discard any previous data for now
+  hit_set_create();
+
+  // include any writes we know about from the pg log.  this doesn't
+  // capture reads, but it is better than nothing!
+  hit_set_apply_log();
+}
+
+void PrimaryLogPG::hit_set_remove_all()
+{
+  // If any archives are degraded we skip this
+  for (auto p = info.hit_set.history.begin();
+       p != info.hit_set.history.end();
+       ++p) {
+    hobject_t aoid = get_hit_set_archive_object(p->begin, p->end, p->using_gmt);
+
+    // Once we hit a degraded object just skip
+    if (is_degraded_or_backfilling_object(aoid))
+      return;
+    if (m_scrubber->write_blocked_by_scrub(aoid))
+      return;
+  }
+
+  if (!info.hit_set.history.empty()) {
+    auto p = info.hit_set.history.rbegin();
+    ceph_assert(p != info.hit_set.history.rend());
+    hobject_t oid = get_hit_set_archive_object(p->begin, p->end, p->using_gmt);
+    ceph_assert(!is_degraded_or_backfilling_object(oid));
+    ObjectContextRef obc = get_object_context(oid, false);
+    ceph_assert(obc);
+
+    OpContextUPtr ctx = simple_opc_create(obc);
+    ctx->at_version = get_next_version();
+    ctx->updated_hset_history = info.hit_set;
+    utime_t now = ceph_clock_now();
+    ctx->mtime = now;
+    hit_set_trim(ctx, 0);
+    simple_opc_submit(std::move(ctx));
+  }
+
+  recovery_state.update_hset(pg_hit_set_history_t());
+  if (agent_state) {
+    agent_state->discard_hit_sets();
+  }
+}
+
+void PrimaryLogPG::hit_set_create()
+{
+  utime_t now = ceph_clock_now();
+  // make a copy of the params to modify
+  HitSet::Params params(pool.info.hit_set_params);
+
+  dout(20) << __func__ << " " << params << dendl;
+  if (pool.info.hit_set_params.get_type() == HitSet::TYPE_BLOOM) {
+    BloomHitSet::Params *p =
+      static_cast<BloomHitSet::Params*>(params.impl.get());
+
+    // convert false positive rate so it holds up across the full period
+    p->set_fpp(p->get_fpp() / pool.info.hit_set_count);
+    if (p->get_fpp() <= 0.0)
+      p->set_fpp(.01);  // fpp cannot be zero!
+
+    // if we don't have specified size, estimate target size based on the
+    // previous bin!
+    if (p->target_size == 0 && hit_set) {
+      utime_t dur = now - hit_set_start_stamp;
+      unsigned unique = hit_set->approx_unique_insert_count();
+      dout(20) << __func__ << " previous set had approx " << unique
+	       << " unique items over " << dur << " seconds" << dendl;
+      p->target_size = (double)unique * (double)pool.info.hit_set_period
+		     / (double)dur;
+    }
+    if (p->target_size <
+	static_cast<uint64_t>(cct->_conf->osd_hit_set_min_size))
+      p->target_size = cct->_conf->osd_hit_set_min_size;
+
+    if (p->target_size
+	> static_cast<uint64_t>(cct->_conf->osd_hit_set_max_size))
+      p->target_size = cct->_conf->osd_hit_set_max_size;
+
+    p->seed = now.sec();
+
+    dout(10) << __func__ << " target_size " << p->target_size
+	     << " fpp " << p->get_fpp() << dendl;
+  }
+  hit_set.reset(new HitSet(params));
+  hit_set_start_stamp = now;
+}
+
+/**
+ * apply log entries to set
+ *
+ * this would only happen after peering, to at least capture writes
+ * during an interval that was potentially lost.
+ */
+bool PrimaryLogPG::hit_set_apply_log()
+{
+  if (!hit_set)
+    return false;
+
+  eversion_t to = info.last_update;
+  eversion_t from = info.hit_set.current_last_update;
+  if (to <= from) {
+    dout(20) << __func__ << " no update" << dendl;
+    return false;
+  }
+
+  dout(20) << __func__ << " " << to << " .. " << info.last_update << dendl;
+  list<pg_log_entry_t>::const_reverse_iterator p =
+    recovery_state.get_pg_log().get_log().log.rbegin();
+  while (p != recovery_state.get_pg_log().get_log().log.rend() && p->version > to)
+    ++p;
+  while (p != recovery_state.get_pg_log().get_log().log.rend() && p->version > from) {
+    hit_set->insert(p->soid);
+    ++p;
+  }
+
+  return true;
+}
+
+void PrimaryLogPG::hit_set_persist()
+{
+  dout(10) << __func__  << dendl;
+  bufferlist bl;
+  unsigned max = pool.info.hit_set_count;
+
+  utime_t now = ceph_clock_now();
+  hobject_t oid;
+
+  // If any archives are degraded we skip this persist request
+  // account for the additional entry being added below
+  for (auto p = info.hit_set.history.begin();
+       p != info.hit_set.history.end();
+       ++p) {
+    hobject_t aoid = get_hit_set_archive_object(p->begin, p->end, p->using_gmt);
+
+    // Once we hit a degraded object just skip further trim
+    if (is_degraded_or_backfilling_object(aoid))
+      return;
+    if (m_scrubber->write_blocked_by_scrub(aoid))
+      return;
+  }
+
+  // If backfill is in progress and we could possibly overlap with the
+  // hit_set_* objects, back off.  Since these all have
+  // hobject_t::hash set to pgid.ps(), and those sort first, we can
+  // look just at that.  This is necessary because our transactions
+  // may include a modify of the new hit_set *and* a delete of the
+  // old one, and this may span the backfill boundary.
+  for (set<pg_shard_t>::const_iterator p = get_backfill_targets().begin();
+       p != get_backfill_targets().end();
+       ++p) {
+    const pg_info_t& pi = recovery_state.get_peer_info(*p);
+    if (pi.last_backfill == hobject_t() ||
+	pi.last_backfill.get_hash() == info.pgid.ps()) {
+      dout(10) << __func__ << " backfill target osd." << *p
+	       << " last_backfill has not progressed past pgid ps"
+	       << dendl;
+      return;
+    }
+  }
+
+
+  pg_hit_set_info_t new_hset = pg_hit_set_info_t(pool.info.use_gmt_hitset);
+  new_hset.begin = hit_set_start_stamp;
+  new_hset.end = now;
+  oid = get_hit_set_archive_object(
+    new_hset.begin,
+    new_hset.end,
+    new_hset.using_gmt);
+
+  // If the current object is degraded we skip this persist request
+  if (m_scrubber->write_blocked_by_scrub(oid))
+    return;
+
+  hit_set->seal();
+  encode(*hit_set, bl);
+  dout(20) << __func__ << " archive " << oid << dendl;
+
+  if (agent_state) {
+    agent_state->add_hit_set(new_hset.begin, hit_set);
+    uint32_t size = agent_state->hit_set_map.size();
+    if (size >= pool.info.hit_set_count) {
+      size = pool.info.hit_set_count > 0 ? pool.info.hit_set_count - 1: 0;
+    }
+    hit_set_in_memory_trim(size);
+  }
+
+  ObjectContextRef obc = get_object_context(oid, true);
+  OpContextUPtr ctx = simple_opc_create(obc);
+
+  ctx->at_version = get_next_version();
+  ctx->updated_hset_history = info.hit_set;
+  pg_hit_set_history_t &updated_hit_set_hist = *(ctx->updated_hset_history);
+
+  updated_hit_set_hist.current_last_update = info.last_update;
+  new_hset.version = ctx->at_version;
+
+  updated_hit_set_hist.history.push_back(new_hset);
+  hit_set_create();
+
+  // fabricate an object_info_t and SnapSet
+  obc->obs.oi.version = ctx->at_version;
+  obc->obs.oi.mtime = now;
+  obc->obs.oi.size = bl.length();
+  obc->obs.exists = true;
+  obc->obs.oi.set_data_digest(bl.crc32c(-1));
+
+  ctx->new_obs = obc->obs;
+
+  ctx->new_snapset = obc->ssc->snapset;
+
+  ctx->delta_stats.num_objects++;
+  ctx->delta_stats.num_objects_hit_set_archive++;
+
+  ctx->delta_stats.num_bytes += bl.length();
+  ctx->delta_stats.num_bytes_hit_set_archive += bl.length();
+
+  bufferlist bss;
+  encode(ctx->new_snapset, bss);
+  bufferlist boi(sizeof(ctx->new_obs.oi));
+  encode(ctx->new_obs.oi, boi,
+	   get_osdmap()->get_features(CEPH_ENTITY_TYPE_OSD, nullptr));
+
+  ctx->op_t->create(oid);
+  if (bl.length()) {
+    ctx->op_t->write(oid, 0, bl.length(), bl, 0);
+    write_update_size_and_usage(ctx->delta_stats, obc->obs.oi, ctx->modified_ranges,
+        0, bl.length());
+    ctx->clean_regions.mark_data_region_dirty(0, bl.length());
+  }
+  map <string, bufferlist> attrs;
+  attrs[OI_ATTR] = std::move(boi);
+  attrs[SS_ATTR] = std::move(bss);
+  setattrs_maybe_cache(ctx->obc, ctx->op_t.get(), attrs);
+  ctx->log.push_back(
+    pg_log_entry_t(
+      pg_log_entry_t::MODIFY,
+      oid,
+      ctx->at_version,
+      eversion_t(),
+      0,
+      osd_reqid_t(),
+      ctx->mtime,
+      0)
+    );
+  ctx->log.back().clean_regions = ctx->clean_regions;
+
+  hit_set_trim(ctx, max);
+
+  simple_opc_submit(std::move(ctx));
+}
+
+void PrimaryLogPG::hit_set_trim(OpContextUPtr &ctx, unsigned max)
+{
+  ceph_assert(ctx->updated_hset_history);
+  pg_hit_set_history_t &updated_hit_set_hist =
+    *(ctx->updated_hset_history);
+  for (unsigned num = updated_hit_set_hist.history.size(); num > max; --num) {
+    list<pg_hit_set_info_t>::iterator p = updated_hit_set_hist.history.begin();
+    ceph_assert(p != updated_hit_set_hist.history.end());
+    hobject_t oid = get_hit_set_archive_object(p->begin, p->end, p->using_gmt);
+
+    ceph_assert(!is_degraded_or_backfilling_object(oid));
+
+    dout(20) << __func__ << " removing " << oid << dendl;
+    ++ctx->at_version.version;
+    ctx->log.push_back(
+        pg_log_entry_t(pg_log_entry_t::DELETE,
+		       oid,
+		       ctx->at_version,
+		       p->version,
+		       0,
+		       osd_reqid_t(),
+		       ctx->mtime,
+		       0));
+
+    ctx->op_t->remove(oid);
+    updated_hit_set_hist.history.pop_front();
+
+    ObjectContextRef obc = get_object_context(oid, false);
+    ceph_assert(obc);
+    --ctx->delta_stats.num_objects;
+    --ctx->delta_stats.num_objects_hit_set_archive;
+    ctx->delta_stats.num_bytes -= obc->obs.oi.size;
+    ctx->delta_stats.num_bytes_hit_set_archive -= obc->obs.oi.size;
+  }
+}
+
+void PrimaryLogPG::hit_set_in_memory_trim(uint32_t max_in_memory)
+{
+  while (agent_state->hit_set_map.size() > max_in_memory) {
+    agent_state->remove_oldest_hit_set();
+  }
+}
+
+
+// =======================================
+// cache agent
+
+void PrimaryLogPG::agent_setup()
+{
+  ceph_assert(is_locked());
+  if (!is_active() ||
+      !is_primary() ||
+      state_test(PG_STATE_PREMERGE) ||
+      pool.info.cache_mode == pg_pool_t::CACHEMODE_NONE ||
+      pool.info.tier_of < 0 ||
+      !get_osdmap()->have_pg_pool(pool.info.tier_of)) {
+    agent_clear();
+    return;
+  }
+  if (!agent_state) {
+    agent_state.reset(new TierAgentState);
+
+    // choose random starting position
+    agent_state->position = hobject_t();
+    agent_state->position.pool = info.pgid.pool();
+    agent_state->position.set_hash(pool.info.get_random_pg_position(
+      info.pgid.pgid,
+      rand()));
+    agent_state->start = agent_state->position;
+
+    dout(10) << __func__ << " allocated new state, position "
+	     << agent_state->position << dendl;
+  } else {
+    dout(10) << __func__ << " keeping existing state" << dendl;
+  }
+
+  if (info.stats.stats_invalid) {
+    osd->clog->warn() << "pg " << info.pgid << " has invalid (post-split) stats; must scrub before tier agent can activate";
+  }
+
+  agent_choose_mode();
+}
+
+void PrimaryLogPG::agent_clear()
+{
+  agent_stop();
+  agent_state.reset(NULL);
+}
+
+// Return false if no objects operated on since start of object hash space
+bool PrimaryLogPG::agent_work(int start_max, int agent_flush_quota)
+{
+  std::scoped_lock locker{*this};
+  if (!agent_state) {
+    dout(10) << __func__ << " no agent state, stopping" << dendl;
+    return true;
+  }
+
+  ceph_assert(!recovery_state.is_deleting());
+
+  if (agent_state->is_idle()) {
+    dout(10) << __func__ << " idle, stopping" << dendl;
+    return true;
+  }
+
+  osd->logger->inc(l_osd_agent_wake);
+
+  dout(10) << __func__
+	   << " max " << start_max
+	   << ", flush " << agent_state->get_flush_mode_name()
+	   << ", evict " << agent_state->get_evict_mode_name()
+	   << ", pos " << agent_state->position
+	   << dendl;
+  ceph_assert(is_primary());
+  ceph_assert(is_active());
+
+  agent_load_hit_sets();
+
+  const pg_pool_t *base_pool = get_osdmap()->get_pg_pool(pool.info.tier_of);
+  ceph_assert(base_pool);
+
+  int ls_min = 1;
+  int ls_max = cct->_conf->osd_pool_default_cache_max_evict_check_size;
+
+  // list some objects.  this conveniently lists clones (oldest to
+  // newest) before heads... the same order we want to flush in.
+  //
+  // NOTE: do not flush the Sequencer.  we will assume that the
+  // listing we get back is imprecise.
+  vector<hobject_t> ls;
+  hobject_t next;
+  int r = pgbackend->objects_list_partial(agent_state->position, ls_min, ls_max,
+					  &ls, &next);
+  ceph_assert(r >= 0);
+  dout(20) << __func__ << " got " << ls.size() << " objects" << dendl;
+  int started = 0;
+  for (vector<hobject_t>::iterator p = ls.begin();
+       p != ls.end();
+       ++p) {
+    if (p->nspace == cct->_conf->osd_hit_set_namespace) {
+      dout(20) << __func__ << " skip (hit set) " << *p << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    if (is_degraded_or_backfilling_object(*p)) {
+      dout(20) << __func__ << " skip (degraded) " << *p << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    if (is_missing_object(p->get_head())) {
+      dout(20) << __func__ << " skip (missing head) " << *p << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    ObjectContextRef obc = get_object_context(*p, false, NULL);
+    if (!obc) {
+      // we didn't flush; we may miss something here.
+      dout(20) << __func__ << " skip (no obc) " << *p << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    if (!obc->obs.exists) {
+      dout(20) << __func__ << " skip (dne) " << obc->obs.oi.soid << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    if (m_scrubber->range_intersects_scrub(obc->obs.oi.soid,
+			       obc->obs.oi.soid.get_head())) {
+      dout(20) << __func__ << " skip (scrubbing) " << obc->obs.oi << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    if (obc->is_blocked()) {
+      dout(20) << __func__ << " skip (blocked) " << obc->obs.oi << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+    if (obc->is_request_pending()) {
+      dout(20) << __func__ << " skip (request pending) " << obc->obs.oi << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+
+    // be careful flushing omap to an EC pool.
+    if (!base_pool->supports_omap() &&
+	obc->obs.oi.is_omap()) {
+      dout(20) << __func__ << " skip (omap to EC) " << obc->obs.oi << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      continue;
+    }
+
+    if (agent_state->evict_mode != TierAgentState::EVICT_MODE_IDLE &&
+	agent_maybe_evict(obc, false))
+      ++started;
+    else if (agent_state->flush_mode != TierAgentState::FLUSH_MODE_IDLE &&
+             agent_flush_quota > 0 && agent_maybe_flush(obc)) {
+      ++started;
+      --agent_flush_quota;
+    }
+    if (started >= start_max) {
+      // If finishing early, set "next" to the next object
+      if (++p != ls.end())
+	next = *p;
+      break;
+    }
+  }
+
+  if (++agent_state->hist_age > cct->_conf->osd_agent_hist_halflife) {
+    dout(20) << __func__ << " resetting atime and temp histograms" << dendl;
+    agent_state->hist_age = 0;
+    agent_state->temp_hist.decay();
+  }
+
+  // Total objects operated on so far
+  int total_started = agent_state->started + started;
+  bool need_delay = false;
+
+  dout(20) << __func__ << " start pos " << agent_state->position
+    << " next start pos " << next
+    << " started " << total_started << dendl;
+
+  // See if we've made a full pass over the object hash space
+  // This might check at most ls_max objects a second time to notice that
+  // we've checked every objects at least once.
+  if (agent_state->position < agent_state->start &&
+      next >= agent_state->start) {
+    dout(20) << __func__ << " wrap around " << agent_state->start << dendl;
+    if (total_started == 0)
+      need_delay = true;
+    else
+      total_started = 0;
+    agent_state->start = next;
+  }
+  agent_state->started = total_started;
+
+  // See if we are starting from beginning
+  if (next.is_max())
+    agent_state->position = hobject_t();
+  else
+    agent_state->position = next;
+
+  // Discard old in memory HitSets
+  hit_set_in_memory_trim(pool.info.hit_set_count);
+
+  if (need_delay) {
+    ceph_assert(agent_state->delaying == false);
+    agent_delay();
+    return false;
+  }
+  agent_choose_mode();
+  return true;
+}
+
+void PrimaryLogPG::agent_load_hit_sets()
+{
+  if (agent_state->evict_mode == TierAgentState::EVICT_MODE_IDLE) {
+    return;
+  }
+
+  if (agent_state->hit_set_map.size() < info.hit_set.history.size()) {
+    dout(10) << __func__ << dendl;
+    for (auto p = info.hit_set.history.begin();
+	 p != info.hit_set.history.end(); ++p) {
+      if (agent_state->hit_set_map.count(p->begin.sec()) == 0) {
+	dout(10) << __func__ << " loading " << p->begin << "-"
+		 << p->end << dendl;
+	if (!pool.info.is_replicated()) {
+	  // FIXME: EC not supported here yet
+	  derr << __func__ << " on non-replicated pool" << dendl;
+	  break;
+	}
+
+	hobject_t oid = get_hit_set_archive_object(p->begin, p->end, p->using_gmt);
+	if (is_unreadable_object(oid)) {
+	  dout(10) << __func__ << " unreadable " << oid << ", waiting" << dendl;
+	  break;
+	}
+
+	ObjectContextRef obc = get_object_context(oid, false);
+	if (!obc) {
+	  derr << __func__ << ": could not load hitset " << oid << dendl;
+	  break;
+	}
+
+	bufferlist bl;
+	{
+	  int r = osd->store->read(ch, ghobject_t(oid), 0, 0, bl);
+	  ceph_assert(r >= 0);
+	}
+	HitSetRef hs(new HitSet);
+	bufferlist::const_iterator pbl = bl.begin();
+	decode(*hs, pbl);
+	agent_state->add_hit_set(p->begin.sec(), hs);
+      }
+    }
+  }
+}
+
+bool PrimaryLogPG::agent_maybe_flush(ObjectContextRef& obc)
+{
+  if (!obc->obs.oi.is_dirty()) {
+    dout(20) << __func__ << " skip (clean) " << obc->obs.oi << dendl;
+    osd->logger->inc(l_osd_agent_skip);
+    return false;
+  }
+  if (obc->obs.oi.is_cache_pinned()) {
+    dout(20) << __func__ << " skip (cache_pinned) " << obc->obs.oi << dendl;
+    osd->logger->inc(l_osd_agent_skip);
+    return false;
+  }
+
+  utime_t now = ceph_clock_now();
+  utime_t ob_local_mtime;
+  if (obc->obs.oi.local_mtime != utime_t()) {
+    ob_local_mtime = obc->obs.oi.local_mtime;
+  } else {
+    ob_local_mtime = obc->obs.oi.mtime;
+  }
+  bool evict_mode_full =
+    (agent_state->evict_mode == TierAgentState::EVICT_MODE_FULL);
+  if (!evict_mode_full &&
+      obc->obs.oi.soid.snap == CEPH_NOSNAP &&  // snaps immutable; don't delay
+      (ob_local_mtime + utime_t(pool.info.cache_min_flush_age, 0) > now)) {
+    dout(20) << __func__ << " skip (too young) " << obc->obs.oi << dendl;
+    osd->logger->inc(l_osd_agent_skip);
+    return false;
+  }
+
+  if (osd->agent_is_active_oid(obc->obs.oi.soid)) {
+    dout(20) << __func__ << " skip (flushing) " << obc->obs.oi << dendl;
+    osd->logger->inc(l_osd_agent_skip);
+    return false;
+  }
+
+  dout(10) << __func__ << " flushing " << obc->obs.oi << dendl;
+
+  // FIXME: flush anything dirty, regardless of what distribution of
+  // ages we expect.
+
+  hobject_t oid = obc->obs.oi.soid;
+  osd->agent_start_op(oid);
+  // no need to capture a pg ref, can't outlive fop or ctx
+  std::function<void()> on_flush = [this, oid]() {
+    osd->agent_finish_op(oid);
+  };
+
+  int result = start_flush(
+    OpRequestRef(), obc, false, NULL,
+    on_flush);
+  if (result != -EINPROGRESS) {
+    on_flush();
+    dout(10) << __func__ << " start_flush() failed " << obc->obs.oi
+      << " with " << result << dendl;
+    osd->logger->inc(l_osd_agent_skip);
+    return false;
+  }
+
+  osd->logger->inc(l_osd_agent_flush);
+  return true;
+}
+
+bool PrimaryLogPG::agent_maybe_evict(ObjectContextRef& obc, bool after_flush)
+{
+  const hobject_t& soid = obc->obs.oi.soid;
+  if (!after_flush && obc->obs.oi.is_dirty()) {
+    dout(20) << __func__ << " skip (dirty) " << obc->obs.oi << dendl;
+    return false;
+  }
+  // This is already checked by agent_work() which passes after_flush = false
+  if (after_flush && m_scrubber->range_intersects_scrub(soid, soid.get_head())) {
+      dout(20) << __func__ << " skip (scrubbing) " << obc->obs.oi << dendl;
+      return false;
+  }
+  if (!obc->obs.oi.watchers.empty()) {
+    dout(20) << __func__ << " skip (watchers) " << obc->obs.oi << dendl;
+    return false;
+  }
+  if (obc->is_blocked()) {
+    dout(20) << __func__ << " skip (blocked) " << obc->obs.oi << dendl;
+    return false;
+  }
+  if (obc->obs.oi.is_cache_pinned()) {
+    dout(20) << __func__ << " skip (cache_pinned) " << obc->obs.oi << dendl;
+    return false;
+  }
+
+  if (soid.snap == CEPH_NOSNAP) {
+    int result = _verify_no_head_clones(soid, obc->ssc->snapset);
+    if (result < 0) {
+      dout(20) << __func__ << " skip (clones) " << obc->obs.oi << dendl;
+      return false;
+    }
+  }
+
+  if (agent_state->evict_mode != TierAgentState::EVICT_MODE_FULL) {
+    // is this object old than cache_min_evict_age?
+    utime_t now = ceph_clock_now();
+    utime_t ob_local_mtime;
+    if (obc->obs.oi.local_mtime != utime_t()) {
+      ob_local_mtime = obc->obs.oi.local_mtime;
+    } else {
+      ob_local_mtime = obc->obs.oi.mtime;
+    }
+    if (ob_local_mtime + utime_t(pool.info.cache_min_evict_age, 0) > now) {
+      dout(20) << __func__ << " skip (too young) " << obc->obs.oi << dendl;
+      osd->logger->inc(l_osd_agent_skip);
+      return false;
+    }
+    // is this object old and/or cold enough?
+    int temp = 0;
+    uint64_t temp_upper = 0, temp_lower = 0;
+    if (hit_set)
+      agent_estimate_temp(soid, &temp);
+    agent_state->temp_hist.add(temp);
+    agent_state->temp_hist.get_position_micro(temp, &temp_lower, &temp_upper);
+
+    dout(20) << __func__
+	     << " temp " << temp
+	     << " pos " << temp_lower << "-" << temp_upper
+	     << ", evict_effort " << agent_state->evict_effort
+	     << dendl;
+    dout(30) << "agent_state:\n";
+    Formatter *f = Formatter::create("");
+    f->open_object_section("agent_state");
+    agent_state->dump(f);
+    f->close_section();
+    f->flush(*_dout);
+    delete f;
+    *_dout << dendl;
+
+    if (1000000 - temp_upper >= agent_state->evict_effort)
+      return false;
+  }
+
+  dout(10) << __func__ << " evicting " << obc->obs.oi << dendl;
+  OpContextUPtr ctx = simple_opc_create(obc);
+
+  auto null_op_req = OpRequestRef();
+  if (!ctx->lock_manager.get_lock_type(
+	RWState::RWWRITE,
+	obc->obs.oi.soid,
+	obc,
+	null_op_req)) {
+    close_op_ctx(ctx.release());
+    dout(20) << __func__ << " skip (cannot get lock) " << obc->obs.oi << dendl;
+    return false;
+  }
+
+  osd->agent_start_evict_op();
+  ctx->register_on_finish(
+    [this]() {
+      osd->agent_finish_evict_op();
+    });
+
+  ctx->at_version = get_next_version();
+  ceph_assert(ctx->new_obs.exists);
+  int r = _delete_oid(ctx.get(), true, false);
+  if (obc->obs.oi.is_omap())
+    ctx->delta_stats.num_objects_omap--;
+  ctx->delta_stats.num_evict++;
+  ctx->delta_stats.num_evict_kb += shift_round_up(obc->obs.oi.size, 10);
+  if (obc->obs.oi.is_dirty())
+    --ctx->delta_stats.num_objects_dirty;
+  ceph_assert(r == 0);
+  finish_ctx(ctx.get(), pg_log_entry_t::DELETE);
+  simple_opc_submit(std::move(ctx));
+  osd->logger->inc(l_osd_tier_evict);
+  osd->logger->inc(l_osd_agent_evict);
+  return true;
+}
+
+void PrimaryLogPG::agent_stop()
+{
+  dout(20) << __func__ << dendl;
+  if (agent_state && !agent_state->is_idle()) {
+    agent_state->evict_mode = TierAgentState::EVICT_MODE_IDLE;
+    agent_state->flush_mode = TierAgentState::FLUSH_MODE_IDLE;
+    osd->agent_disable_pg(this, agent_state->evict_effort);
+  }
+}
+
+void PrimaryLogPG::agent_delay()
+{
+  dout(20) << __func__ << dendl;
+  if (agent_state && !agent_state->is_idle()) {
+    ceph_assert(agent_state->delaying == false);
+    agent_state->delaying = true;
+    osd->agent_disable_pg(this, agent_state->evict_effort);
+  }
+}
+
+void PrimaryLogPG::agent_choose_mode_restart()
+{
+  dout(20) << __func__ << dendl;
+  std::scoped_lock locker{*this};
+  if (agent_state && agent_state->delaying) {
+    agent_state->delaying = false;
+    agent_choose_mode(true);
+  }
+}
+
+bool PrimaryLogPG::agent_choose_mode(bool restart, OpRequestRef op)
+{
+  bool requeued = false;
+  // Let delay play out
+  if (agent_state->delaying) {
+    dout(20) << __func__ << " " << this << " delaying, ignored" << dendl;
+    return requeued;
+  }
+
+  TierAgentState::flush_mode_t flush_mode = TierAgentState::FLUSH_MODE_IDLE;
+  TierAgentState::evict_mode_t evict_mode = TierAgentState::EVICT_MODE_IDLE;
+  unsigned evict_effort = 0;
+
+  if (info.stats.stats_invalid) {
+    // idle; stats can't be trusted until we scrub.
+    dout(20) << __func__ << " stats invalid (post-split), idle" << dendl;
+    goto skip_calc;
+  }
+
+  {
+  uint64_t divisor = pool.info.get_pg_num_divisor(info.pgid.pgid);
+  ceph_assert(divisor > 0);
+
+  // adjust (effective) user objects down based on the number
+  // of HitSet objects, which should not count toward our total since
+  // they cannot be flushed.
+  uint64_t unflushable = info.stats.stats.sum.num_objects_hit_set_archive;
+
+  // also exclude omap objects if ec backing pool
+  const pg_pool_t *base_pool = get_osdmap()->get_pg_pool(pool.info.tier_of);
+  ceph_assert(base_pool);
+  if (!base_pool->supports_omap())
+    unflushable += info.stats.stats.sum.num_objects_omap;
+
+  uint64_t num_user_objects = info.stats.stats.sum.num_objects;
+  if (num_user_objects > unflushable)
+    num_user_objects -= unflushable;
+  else
+    num_user_objects = 0;
+
+  uint64_t num_user_bytes = info.stats.stats.sum.num_bytes;
+  uint64_t unflushable_bytes = info.stats.stats.sum.num_bytes_hit_set_archive;
+  num_user_bytes -= unflushable_bytes;
+  uint64_t num_overhead_bytes = osd->store->estimate_objects_overhead(num_user_objects);
+  num_user_bytes += num_overhead_bytes;
+
+  // also reduce the num_dirty by num_objects_omap
+  int64_t num_dirty = info.stats.stats.sum.num_objects_dirty;
+  if (!base_pool->supports_omap()) {
+    if (num_dirty > info.stats.stats.sum.num_objects_omap)
+      num_dirty -= info.stats.stats.sum.num_objects_omap;
+    else
+      num_dirty = 0;
+  }
+
+  dout(10) << __func__
+	   << " flush_mode: "
+	   << TierAgentState::get_flush_mode_name(agent_state->flush_mode)
+	   << " evict_mode: "
+	   << TierAgentState::get_evict_mode_name(agent_state->evict_mode)
+	   << " num_objects: " << info.stats.stats.sum.num_objects
+	   << " num_bytes: " << info.stats.stats.sum.num_bytes
+	   << " num_objects_dirty: " << info.stats.stats.sum.num_objects_dirty
+	   << " num_objects_omap: " << info.stats.stats.sum.num_objects_omap
+	   << " num_dirty: " << num_dirty
+	   << " num_user_objects: " << num_user_objects
+	   << " num_user_bytes: " << num_user_bytes
+	   << " num_overhead_bytes: " << num_overhead_bytes
+	   << " pool.info.target_max_bytes: " << pool.info.target_max_bytes
+	   << " pool.info.target_max_objects: " << pool.info.target_max_objects
+	   << dendl;
+
+  // get dirty, full ratios
+  uint64_t dirty_micro = 0;
+  uint64_t full_micro = 0;
+  if (pool.info.target_max_bytes && num_user_objects > 0) {
+    uint64_t avg_size = num_user_bytes / num_user_objects;
+    dirty_micro =
+      num_dirty * avg_size * 1000000 /
+      std::max<uint64_t>(pool.info.target_max_bytes / divisor, 1);
+    full_micro =
+      num_user_objects * avg_size * 1000000 /
+      std::max<uint64_t>(pool.info.target_max_bytes / divisor, 1);
+  }
+  if (pool.info.target_max_objects > 0) {
+    uint64_t dirty_objects_micro =
+      num_dirty * 1000000 /
+      std::max<uint64_t>(pool.info.target_max_objects / divisor, 1);
+    if (dirty_objects_micro > dirty_micro)
+      dirty_micro = dirty_objects_micro;
+    uint64_t full_objects_micro =
+      num_user_objects * 1000000 /
+      std::max<uint64_t>(pool.info.target_max_objects / divisor, 1);
+    if (full_objects_micro > full_micro)
+      full_micro = full_objects_micro;
+  }
+  dout(20) << __func__ << " dirty " << ((float)dirty_micro / 1000000.0)
+	   << " full " << ((float)full_micro / 1000000.0)
+	   << dendl;
+
+  // flush mode
+  uint64_t flush_target = pool.info.cache_target_dirty_ratio_micro;
+  uint64_t flush_high_target = pool.info.cache_target_dirty_high_ratio_micro;
+  uint64_t flush_slop = (float)flush_target * cct->_conf->osd_agent_slop;
+  if (restart || agent_state->flush_mode == TierAgentState::FLUSH_MODE_IDLE) {
+    flush_target += flush_slop;
+    flush_high_target += flush_slop;
+  } else {
+    flush_target -= std::min(flush_target, flush_slop);
+    flush_high_target -= std::min(flush_high_target, flush_slop);
+  }
+
+  if (dirty_micro > flush_high_target) {
+    flush_mode = TierAgentState::FLUSH_MODE_HIGH;
+  } else if (dirty_micro > flush_target || (!flush_target && num_dirty > 0)) {
+    flush_mode = TierAgentState::FLUSH_MODE_LOW;
+  }
+
+  // evict mode
+  uint64_t evict_target = pool.info.cache_target_full_ratio_micro;
+  uint64_t evict_slop = (float)evict_target * cct->_conf->osd_agent_slop;
+  if (restart || agent_state->evict_mode == TierAgentState::EVICT_MODE_IDLE)
+    evict_target += evict_slop;
+  else
+    evict_target -= std::min(evict_target, evict_slop);
+
+  if (full_micro > 1000000) {
+    // evict anything clean
+    evict_mode = TierAgentState::EVICT_MODE_FULL;
+    evict_effort = 1000000;
+  } else if (full_micro > evict_target) {
+    // set effort in [0..1] range based on where we are between
+    evict_mode = TierAgentState::EVICT_MODE_SOME;
+    uint64_t over = full_micro - evict_target;
+    uint64_t span  = 1000000 - evict_target;
+    evict_effort = std::max(over * 1000000 / span,
+			    uint64_t(1000000.0 *
+				     cct->_conf->osd_agent_min_evict_effort));
+
+    // quantize effort to avoid too much reordering in the agent_queue.
+    uint64_t inc = cct->_conf->osd_agent_quantize_effort * 1000000;
+    ceph_assert(inc > 0);
+    uint64_t was = evict_effort;
+    evict_effort -= evict_effort % inc;
+    if (evict_effort < inc)
+      evict_effort = inc;
+    ceph_assert(evict_effort >= inc && evict_effort <= 1000000);
+    dout(30) << __func__ << " evict_effort " << was << " quantized by " << inc << " to " << evict_effort << dendl;
+  }
+  }
+
+  skip_calc:
+  bool old_idle = agent_state->is_idle();
+  if (flush_mode != agent_state->flush_mode) {
+    dout(5) << __func__ << " flush_mode "
+	    << TierAgentState::get_flush_mode_name(agent_state->flush_mode)
+	    << " -> "
+	    << TierAgentState::get_flush_mode_name(flush_mode)
+	    << dendl;
+    recovery_state.update_stats(
+      [=](auto &history, auto &stats) {
+	if (flush_mode == TierAgentState::FLUSH_MODE_HIGH) {
+	  osd->agent_inc_high_count();
+	  stats.stats.sum.num_flush_mode_high = 1;
+	} else if (flush_mode == TierAgentState::FLUSH_MODE_LOW) {
+	  stats.stats.sum.num_flush_mode_low = 1;
+	}
+	if (agent_state->flush_mode == TierAgentState::FLUSH_MODE_HIGH) {
+	  osd->agent_dec_high_count();
+	  stats.stats.sum.num_flush_mode_high = 0;
+	} else if (agent_state->flush_mode == TierAgentState::FLUSH_MODE_LOW) {
+	  stats.stats.sum.num_flush_mode_low = 0;
+	}
+	return false;
+      });
+    agent_state->flush_mode = flush_mode;
+  }
+  if (evict_mode != agent_state->evict_mode) {
+    dout(5) << __func__ << " evict_mode "
+	    << TierAgentState::get_evict_mode_name(agent_state->evict_mode)
+	    << " -> "
+	    << TierAgentState::get_evict_mode_name(evict_mode)
+	    << dendl;
+    if (agent_state->evict_mode == TierAgentState::EVICT_MODE_FULL &&
+	is_active()) {
+      if (op)
+	requeue_op(op);
+      requeue_ops(waiting_for_flush);
+      requeue_ops(waiting_for_active);
+      requeue_ops(waiting_for_readable);
+      requeue_ops(waiting_for_scrub);
+      requeue_ops(waiting_for_cache_not_full);
+      objects_blocked_on_cache_full.clear();
+      requeued = true;
+    }
+    recovery_state.update_stats(
+      [=](auto &history, auto &stats) {
+	if (evict_mode == TierAgentState::EVICT_MODE_SOME) {
+	  stats.stats.sum.num_evict_mode_some = 1;
+	} else if (evict_mode == TierAgentState::EVICT_MODE_FULL) {
+	  stats.stats.sum.num_evict_mode_full = 1;
+	}
+	if (agent_state->evict_mode == TierAgentState::EVICT_MODE_SOME) {
+	  stats.stats.sum.num_evict_mode_some = 0;
+	} else if (agent_state->evict_mode == TierAgentState::EVICT_MODE_FULL) {
+	  stats.stats.sum.num_evict_mode_full = 0;
+	}
+	return false;
+      });
+    agent_state->evict_mode = evict_mode;
+  }
+  uint64_t old_effort = agent_state->evict_effort;
+  if (evict_effort != agent_state->evict_effort) {
+    dout(5) << __func__ << " evict_effort "
+	    << ((float)agent_state->evict_effort / 1000000.0)
+	    << " -> "
+	    << ((float)evict_effort / 1000000.0)
+	    << dendl;
+    agent_state->evict_effort = evict_effort;
+  }
+
+  // NOTE: we are using evict_effort as a proxy for *all* agent effort
+  // (including flush).  This is probably fine (they should be
+  // correlated) but it is not precisely correct.
+  if (agent_state->is_idle()) {
+    if (!restart && !old_idle) {
+      osd->agent_disable_pg(this, old_effort);
+    }
+  } else {
+    if (restart || old_idle) {
+      osd->agent_enable_pg(this, agent_state->evict_effort);
+    } else if (old_effort != agent_state->evict_effort) {
+      osd->agent_adjust_pg(this, old_effort, agent_state->evict_effort);
+    }
+  }
+  return requeued;
+}
+
+void PrimaryLogPG::agent_estimate_temp(const hobject_t& oid, int *temp)
+{
+  ceph_assert(hit_set);
+  ceph_assert(temp);
+  *temp = 0;
+  if (hit_set->contains(oid))
+    *temp = 1000000;
+  unsigned i = 0;
+  int last_n = pool.info.hit_set_search_last_n;
+  for (map<time_t,HitSetRef>::reverse_iterator p =
+       agent_state->hit_set_map.rbegin(); last_n > 0 &&
+       p != agent_state->hit_set_map.rend(); ++p, ++i) {
+    if (p->second->contains(oid)) {
+      *temp += pool.info.get_grade(i);
+      --last_n;
+    }
+  }
+}
+
+// Dup op detection
+
+bool PrimaryLogPG::already_complete(eversion_t v)
+{
+  dout(20) << __func__ << ": " << v << dendl;
+  for (xlist<RepGather*>::iterator i = repop_queue.begin();
+       !i.end();
+       ++i) {
+    dout(20) << __func__ << ": " << **i << dendl;
+    // skip copy from temp object ops
+    if ((*i)->v == eversion_t()) {
+      dout(20) << __func__ << ": " << **i
+	       << " version is empty" << dendl;
+      continue;
+    }
+    if ((*i)->v > v) {
+      dout(20) << __func__ << ": " << **i
+	       << " (*i)->v past v" << dendl;
+      break;
+    }
+    if (!(*i)->all_committed) {
+      dout(20) << __func__ << ": " << **i
+	       << " not committed, returning false"
+	       << dendl;
+      return false;
+    }
+  }
+  dout(20) << __func__ << ": returning true" << dendl;
+  return true;
+}
+
+
+// ==========================================================================================
+// SCRUB
+
+void PrimaryLogPG::do_replica_scrub_map(OpRequestRef op)
+{
+  dout(15) << __func__ << " is scrub active? " << m_scrubber->is_scrub_active() << dendl;
+  op->mark_started();
+
+  if (!m_scrubber->is_scrub_active()) {
+    dout(10) << __func__ << " scrub isn't active" << dendl;
+    return;
+  }
+  m_scrubber->map_from_replica(op);
+}
+
+bool PrimaryLogPG::_range_available_for_scrub(const hobject_t& begin,
+					      const hobject_t& end)
+{
+  pair<hobject_t, ObjectContextRef> next;
+  next.second = object_contexts.lookup(begin);
+  next.first = begin;
+  bool more = true;
+  while (more && next.first < end) {
+    if (next.second && next.second->is_blocked()) {
+      next.second->requeue_scrub_on_unblock = true;
+      dout(10) << __func__ << ": scrub delayed, "
+	       << next.first << " is blocked"
+	       << dendl;
+      return false;
+    }
+    more = object_contexts.get_next(next.first, &next);
+  }
+  return true;
+}
+
+
+int PrimaryLogPG::rep_repair_primary_object(const hobject_t& soid, OpContext *ctx)
+{
+  OpRequestRef op = ctx->op;
+  // Only supports replicated pools
+  ceph_assert(!pool.info.is_erasure());
+  ceph_assert(is_primary());
+
+  dout(10) << __func__ << " " << soid
+	   << " peers osd.{" << get_acting_recovery_backfill() << "}" << dendl;
+
+  if (!is_clean()) {
+    block_for_clean(soid, op);
+    return -EAGAIN;
+  }
+
+  ceph_assert(!recovery_state.get_pg_log().get_missing().is_missing(soid));
+  auto& oi = ctx->new_obs.oi;
+  eversion_t v = oi.version;
+
+  if (primary_error(soid, v)) {
+    dout(0) << __func__ << " No other replicas available for " << soid << dendl;
+    // XXX: If we knew that there is no down osd which could include this
+    // object, it would be nice if we could return EIO here.
+    // If a "never fail" flag was available, that could be used
+    // for rbd to NOT return EIO until object marked lost.
+
+    // Drop through to save this op in case an osd comes up with the object.
+  }
+
+  // Restart the op after object becomes readable again
+  waiting_for_unreadable_object[soid].push_back(op);
+  op->mark_delayed("waiting for missing object");
+
+  ceph_assert(is_clean());
+  state_set(PG_STATE_REPAIR);
+  state_clear(PG_STATE_CLEAN);
+  queue_peering_event(
+      PGPeeringEventRef(
+	std::make_shared<PGPeeringEvent>(
+	get_osdmap_epoch(),
+	get_osdmap_epoch(),
+	PeeringState::DoRecovery())));
+
+  return -EAGAIN;
+}
+
+/*---SnapTrimmer Logging---*/
+#undef dout_prefix
+#define dout_prefix pg->gen_prefix(*_dout)
+
+void PrimaryLogPG::SnapTrimmer::log_enter(const char *state_name)
+{
+  ldout(pg->cct, 20) << "enter " << state_name << dendl;
+}
+
+void PrimaryLogPG::SnapTrimmer::log_exit(const char *state_name, utime_t enter_time)
+{
+  ldout(pg->cct, 20) << "exit " << state_name << dendl;
+}
+
+bool PrimaryLogPG::SnapTrimmer::permit_trim() {
+  return
+    pg->is_clean() &&
+    !pg->is_scrub_queued_or_active() &&
+    !pg->snap_trimq.empty();
+}
+
+/*---SnapTrimmer states---*/
+#undef dout_prefix
+#define dout_prefix (context< SnapTrimmer >().pg->gen_prefix(*_dout) \
+		     << "SnapTrimmer state<" << get_state_name() << ">: ")
+
+/* NotTrimming */
+PrimaryLogPG::NotTrimming::NotTrimming(my_context ctx)
+  : my_base(ctx),
+    NamedState(nullptr, "NotTrimming")
+{
+  context< SnapTrimmer >().log_enter(state_name);
+}
+
+void PrimaryLogPG::NotTrimming::exit()
+{
+  context< SnapTrimmer >().log_exit(state_name, enter_time);
+}
+
+boost::statechart::result PrimaryLogPG::NotTrimming::react(const KickTrim&)
+{
+  PrimaryLogPG *pg = context< SnapTrimmer >().pg;
+  ldout(pg->cct, 10) << "NotTrimming react KickTrim" << dendl;
+
+  if (!(pg->is_primary() && pg->is_active())) {
+    ldout(pg->cct, 10) << "NotTrimming not primary or active" << dendl;
+    return discard_event();
+  }
+  if (!pg->is_clean() ||
+      pg->snap_trimq.empty()) {
+    ldout(pg->cct, 10) << "NotTrimming not clean or nothing to trim" << dendl;
+    return discard_event();
+  }
+  if (pg->is_scrub_queued_or_active()) {
+    ldout(pg->cct, 10) << " scrubbing, will requeue snap_trimmer after" << dendl;
+    return transit< WaitScrub >();
+  } else {
+    return transit< Trimming >();
+  }
+}
+
+boost::statechart::result PrimaryLogPG::WaitReservation::react(const SnapTrimReserved&)
+{
+  PrimaryLogPG *pg = context< SnapTrimmer >().pg;
+  ldout(pg->cct, 10) << "WaitReservation react SnapTrimReserved" << dendl;
+
+  pending = nullptr;
+  if (!context< SnapTrimmer >().can_trim()) {
+    post_event(KickTrim());
+    return transit< NotTrimming >();
+  }
+
+  context<Trimming>().snap_to_trim = pg->snap_trimq.range_start();
+  ldout(pg->cct, 10) << "NotTrimming: trimming "
+		     << pg->snap_trimq.range_start()
+		     << dendl;
+  return transit< AwaitAsyncWork >();
+}
+
+/* AwaitAsyncWork */
+PrimaryLogPG::AwaitAsyncWork::AwaitAsyncWork(my_context ctx)
+  : my_base(ctx),
+    NamedState(nullptr, "Trimming/AwaitAsyncWork")
+{
+  auto *pg = context< SnapTrimmer >().pg;
+  context< SnapTrimmer >().log_enter(state_name);
+  context< SnapTrimmer >().pg->osd->queue_for_snap_trim(pg);
+  pg->state_set(PG_STATE_SNAPTRIM);
+  pg->state_clear(PG_STATE_SNAPTRIM_ERROR);
+  pg->publish_stats_to_osd();
+}
+
+boost::statechart::result PrimaryLogPG::AwaitAsyncWork::react(const DoSnapWork&)
+{
+  PrimaryLogPGRef pg = context< SnapTrimmer >().pg;
+  snapid_t snap_to_trim = context<Trimming>().snap_to_trim;
+  auto &in_flight = context<Trimming>().in_flight;
+  ceph_assert(in_flight.empty());
+
+  ceph_assert(pg->is_primary() && pg->is_active());
+  if (!context< SnapTrimmer >().can_trim()) {
+    ldout(pg->cct, 10) << "something changed, reverting to NotTrimming" << dendl;
+    post_event(KickTrim());
+    return transit< NotTrimming >();
+  }
+
+  ldout(pg->cct, 10) << "AwaitAsyncWork: trimming snap " << snap_to_trim << dendl;
+
+  vector<hobject_t> to_trim;
+  unsigned max = pg->cct->_conf->osd_pg_max_concurrent_snap_trims;
+  // we need to look for at least 1 snaptrim, otherwise we'll misinterpret
+  // the ENOENT below and erase snap_to_trim.
+  ceph_assert(max > 0);
+  to_trim.reserve(max);
+  int r = pg->snap_mapper.get_next_objects_to_trim(
+    snap_to_trim,
+    max,
+    &to_trim);
+  if (r != 0 && r != -ENOENT) {
+    lderr(pg->cct) << "get_next_objects_to_trim returned "
+		   << cpp_strerror(r) << dendl;
+    ceph_abort_msg("get_next_objects_to_trim returned an invalid code");
+  } else if (r == -ENOENT) {
+    // Done!
+    ldout(pg->cct, 10) << "got ENOENT" << dendl;
+
+    pg->snap_trimq.erase(snap_to_trim);
+
+    if (pg->snap_trimq_repeat.count(snap_to_trim)) {
+      ldout(pg->cct, 10) << " removing from snap_trimq_repeat" << dendl;
+      pg->snap_trimq_repeat.erase(snap_to_trim);
+    } else {
+      ldout(pg->cct, 10) << "adding snap " << snap_to_trim
+			 << " to purged_snaps"
+			 << dendl;
+      ObjectStore::Transaction t;
+      pg->recovery_state.adjust_purged_snaps(
+	[snap_to_trim](auto &purged_snaps) {
+	  purged_snaps.insert(snap_to_trim);
+	});
+      pg->write_if_dirty(t);
+
+      ldout(pg->cct, 10) << "purged_snaps now "
+			 << pg->info.purged_snaps << ", snap_trimq now "
+			 << pg->snap_trimq << dendl;
+
+      int tr = pg->osd->store->queue_transaction(pg->ch, std::move(t), NULL);
+      ceph_assert(tr == 0);
+
+      pg->recovery_state.share_pg_info();
+    }
+    post_event(KickTrim());
+    return transit< NotTrimming >();
+  }
+  ceph_assert(!to_trim.empty());
+
+  for (auto &&object: to_trim) {
+    // Get next
+    ldout(pg->cct, 10) << "AwaitAsyncWork react trimming " << object << dendl;
+    OpContextUPtr ctx;
+    int error = pg->trim_object(in_flight.empty(), object, snap_to_trim, &ctx);
+    if (error) {
+      if (error == -ENOLCK) {
+	ldout(pg->cct, 10) << "could not get write lock on obj "
+			   << object << dendl;
+      } else {
+	pg->state_set(PG_STATE_SNAPTRIM_ERROR);
+	ldout(pg->cct, 10) << "Snaptrim error=" << error << dendl;
+      }
+      if (!in_flight.empty()) {
+	ldout(pg->cct, 10) << "letting the ones we already started finish" << dendl;
+	return transit< WaitRepops >();
+      }
+      if (error == -ENOLCK) {
+	ldout(pg->cct, 10) << "waiting for it to clear"
+			   << dendl;
+	return transit< WaitRWLock >();
+      } else {
+        return transit< NotTrimming >();
+      }
+    }
+
+    in_flight.insert(object);
+    ctx->register_on_success(
+      [pg, object, &in_flight]() {
+	ceph_assert(in_flight.find(object) != in_flight.end());
+	in_flight.erase(object);
+	if (in_flight.empty()) {
+	  if (pg->state_test(PG_STATE_SNAPTRIM_ERROR)) {
+	    pg->snap_trimmer_machine.process_event(Reset());
+	  } else {
+	    pg->snap_trimmer_machine.process_event(RepopsComplete());
+	  }
+	}
+      });
+
+    pg->simple_opc_submit(std::move(ctx));
+  }
+
+  return transit< WaitRepops >();
+}
+
+void PrimaryLogPG::setattr_maybe_cache(
+  ObjectContextRef obc,
+  PGTransaction *t,
+  const string &key,
+  bufferlist &val)
+{
+  t->setattr(obc->obs.oi.soid, key, val);
+}
+
+void PrimaryLogPG::setattrs_maybe_cache(
+  ObjectContextRef obc,
+  PGTransaction *t,
+  map<string, bufferlist> &attrs)
+{
+  t->setattrs(obc->obs.oi.soid, attrs);
+}
+
+void PrimaryLogPG::rmattr_maybe_cache(
+  ObjectContextRef obc,
+  PGTransaction *t,
+  const string &key)
+{
+  t->rmattr(obc->obs.oi.soid, key);
+}
+
+int PrimaryLogPG::getattr_maybe_cache(
+  ObjectContextRef obc,
+  const string &key,
+  bufferlist *val)
+{
+  if (pool.info.is_erasure()) {
+    map<string, bufferlist>::iterator i = obc->attr_cache.find(key);
+    if (i != obc->attr_cache.end()) {
+      if (val)
+	*val = i->second;
+      return 0;
+    } else {
+      return -ENODATA;
+    }
+  }
+  return pgbackend->objects_get_attr(obc->obs.oi.soid, key, val);
+}
+
+int PrimaryLogPG::getattrs_maybe_cache(
+  ObjectContextRef obc,
+  map<string, bufferlist> *out)
+{
+  int r = 0;
+  ceph_assert(out);
+  if (pool.info.is_erasure()) {
+    *out = obc->attr_cache;
+  } else {
+    r = pgbackend->objects_get_attrs(obc->obs.oi.soid, out);
+  }
+  map<string, bufferlist> tmp;
+  for (map<string, bufferlist>::iterator i = out->begin();
+       i != out->end();
+       ++i) {
+    if (i->first.size() > 1 && i->first[0] == '_')
+      tmp[i->first.substr(1, i->first.size())] = std::move(i->second);
+  }
+  tmp.swap(*out);
+  return r;
+}
+
+bool PrimaryLogPG::check_failsafe_full() {
+    return osd->check_failsafe_full(get_dpp());
+}
+
+bool PrimaryLogPG::maybe_preempt_replica_scrub(const hobject_t& oid)
+{
+  return m_scrubber->write_blocked_by_scrub(oid);
+}
+
+void intrusive_ptr_add_ref(PrimaryLogPG *pg) { pg->get("intptr"); }
+void intrusive_ptr_release(PrimaryLogPG *pg) { pg->put("intptr"); }
+
+#ifdef PG_DEBUG_REFS
+uint64_t get_with_id(PrimaryLogPG *pg) { return pg->get_with_id(); }
+void put_with_id(PrimaryLogPG *pg, uint64_t id) { return pg->put_with_id(id); }
+#endif
+
+void intrusive_ptr_add_ref(PrimaryLogPG::RepGather *repop) { repop->get(); }
+void intrusive_ptr_release(PrimaryLogPG::RepGather *repop) { repop->put(); }
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