path: root/src/osd/SnapMapper.cc

// -*- 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>
 *
 * 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 "SnapMapper.h"

#include <fmt/printf.h>
#include <fmt/ranges.h>

#include "global/global_context.h"
#include "osd/osd_types_fmt.h"
#include "SnapMapReaderI.h"

#define dout_context cct
#define dout_subsys ceph_subsys_osd
#undef dout_prefix
#define dout_prefix *_dout << "snap_mapper."

using std::make_pair;
using std::map;
using std::pair;
using std::set;
using std::string;
using std::vector;

using ceph::decode;
using ceph::encode;
using ceph::timespan_str;
using result_t = Scrub::SnapMapReaderI::result_t;
using code_t = Scrub::SnapMapReaderI::result_t::code_t;


const string SnapMapper::LEGACY_MAPPING_PREFIX = "MAP_";
const string SnapMapper::MAPPING_PREFIX = "SNA_";
const string SnapMapper::OBJECT_PREFIX = "OBJ_";

const char *SnapMapper::PURGED_SNAP_PREFIX = "PSN_";

/*

  We have a bidirectional mapping, (1) from each snap+obj to object,
  sorted by snapshot, such that we can enumerate to identify all clones
  mapped to a particular snapshot, and (2) from object to snaps, so we
  can identify which reverse mappings exist for any given object (and,
  e.g., clean up on deletion).

  "MAP_"
  + ("%016x" % snapid)
  + "_"
  + (".%x" % shard_id)
  + "_"
  + hobject_t::to_str() ("%llx.%8x.%lx.name...." % pool, hash, snap)
  -> SnapMapping::Mapping { snap, hoid }

  "SNA_"
  + ("%lld" % poolid)
  + "_"
  + ("%016x" % snapid)
  + "_"
  + (".%x" % shard_id)
  + "_"
  + hobject_t::to_str() ("%llx.%8x.%lx.name...." % pool, hash, snap)
  -> SnapMapping::Mapping { snap, hoid }

  "OBJ_" +
  + (".%x" % shard_id)
  + hobject_t::to_str()
   -> SnapMapper::object_snaps { oid, set<snapid_t> }

  */

#ifdef WITH_SEASTAR
#include "crimson/common/log.h"
#include "crimson/osd/pg_interval_interrupt_condition.h"
  template <typename ValuesT = void>
  using interruptible_future =
    ::crimson::interruptible::interruptible_future<
      ::crimson::osd::IOInterruptCondition, ValuesT>;
  using interruptor =
    ::crimson::interruptible::interruptor<
      ::crimson::osd::IOInterruptCondition>;

#define CRIMSON_DEBUG(FMT_MSG, ...) crimson::get_logger(ceph_subsys_).debug(FMT_MSG, ##__VA_ARGS__)
int OSDriver::get_keys(
  const std::set<std::string> &keys,
  std::map<std::string, ceph::buffer::list> *out)
{
  CRIMSON_DEBUG("OSDriver::{}:{}", __func__, __LINE__);
  using crimson::os::FuturizedStore;
  return interruptor::green_get(os->omap_get_values(
    ch, hoid, keys
  ).safe_then([out] (FuturizedStore::Shard::omap_values_t&& vals) {
    // just the difference in comparator (`std::less<>` in omap_values_t`)
    reinterpret_cast<FuturizedStore::Shard::omap_values_t&>(*out) = std::move(vals);
    return 0;
  }, FuturizedStore::Shard::read_errorator::all_same_way([] (auto& e) {
    assert(e.value() > 0);
    return -e.value();
  }))); // this requires seastar::thread
  CRIMSON_DEBUG("OSDriver::{}:{}", __func__, __LINE__);
}

int OSDriver::get_next(
  const std::string &key,
  std::pair<std::string, ceph::buffer::list> *next)
{
  CRIMSON_DEBUG("OSDriver::{}:{}", __func__, __LINE__);
  using crimson::os::FuturizedStore;
  return interruptor::green_get(os->omap_get_values(
    ch, hoid, key
  ).safe_then_unpack([&key, next] (bool, FuturizedStore::Shard::omap_values_t&& vals) {
    CRIMSON_DEBUG("OSDriver::{}:{}", "get_next", __LINE__);
    if (auto nit = std::begin(vals); nit == std::end(vals)) {
      CRIMSON_DEBUG("OSDriver::{}:{}", "get_next", __LINE__);
      return -ENOENT;
    } else {
      CRIMSON_DEBUG("OSDriver::{}:{}", "get_next", __LINE__);
      assert(nit->first > key);
      *next = *nit;
      return 0;
    }
  }, FuturizedStore::Shard::read_errorator::all_same_way([] {
    CRIMSON_DEBUG("OSDriver::{}:{}", "get_next", __LINE__);
    return -EINVAL;
  }))); // this requires seastar::thread
  CRIMSON_DEBUG("OSDriver::{}:{}", __func__, __LINE__);
}

int OSDriver::get_next_or_current(
  const std::string &key,
  std::pair<std::string, ceph::buffer::list> *next_or_current)
{
  CRIMSON_DEBUG("OSDriver::{}:{}", __func__, __LINE__);
  using crimson::os::FuturizedStore;
  // let's try to get current first
  return interruptor::green_get(os->omap_get_values(
    ch, hoid, FuturizedStore::Shard::omap_keys_t{key}
  ).safe_then([&key, next_or_current] (FuturizedStore::Shard::omap_values_t&& vals) {
    assert(vals.size() == 1);
    *next_or_current = std::make_pair(key, std::move(vals[0]));
    return 0;
  }, FuturizedStore::Shard::read_errorator::all_same_way(
    [next_or_current, &key, this] {
    // no current, try next
    return get_next(key, next_or_current);
  }))); // this requires seastar::thread
  CRIMSON_DEBUG("OSDriver::{}:{}", __func__, __LINE__);
}
#else
int OSDriver::get_keys(
  const std::set<std::string> &keys,
  std::map<std::string, ceph::buffer::list> *out)
{
  return os->omap_get_values(ch, hoid, keys, out);
}

int OSDriver::get_next(
  const std::string &key,
  std::pair<std::string, ceph::buffer::list> *next)
{
  ObjectMap::ObjectMapIterator iter =
    os->get_omap_iterator(ch, hoid);
  if (!iter) {
    ceph_abort();
    return -EINVAL;
  }
  iter->upper_bound(key);
  if (iter->valid()) {
    if (next)
      *next = make_pair(iter->key(), iter->value());
    return 0;
  } else {
    return -ENOENT;
  }
}

int OSDriver::get_next_or_current(
  const std::string &key,
  std::pair<std::string, ceph::buffer::list> *next_or_current)
{
  ObjectMap::ObjectMapIterator iter =
    os->get_omap_iterator(ch, hoid);
  if (!iter) {
    ceph_abort();
    return -EINVAL;
  }
  iter->lower_bound(key);
  if (iter->valid()) {
    if (next_or_current)
      *next_or_current = make_pair(iter->key(), iter->value());
    return 0;
  } else {
    return -ENOENT;
  }
}
#endif // WITH_SEASTAR

string SnapMapper::get_prefix(int64_t pool, snapid_t snap)
{
  static_assert(sizeof(pool) == 8, "assumed by the formatting code");
  return fmt::sprintf("%s%lld_%.16X_",
		      MAPPING_PREFIX,
		      pool,
		      snap);
}

string SnapMapper::to_raw_key(
  const pair<snapid_t, hobject_t> &in) const
{
  return get_prefix(in.second.pool, in.first) + shard_prefix + in.second.to_str();
}

std::string SnapMapper::to_raw_key(snapid_t snap, const hobject_t &clone) const
{
  return get_prefix(clone.pool, snap) + shard_prefix + clone.to_str();
}

pair<string, ceph::buffer::list> SnapMapper::to_raw(
  const pair<snapid_t, hobject_t> &in) const
{
  ceph::buffer::list bl;
  encode(Mapping(in), bl);
  return make_pair(to_raw_key(in), bl);
}

pair<snapid_t, hobject_t> SnapMapper::from_raw(
  const pair<std::string, ceph::buffer::list> &image)
{
  using ceph::decode;
  Mapping map;
  ceph::buffer::list bl(image.second);
  auto bp = bl.cbegin();
  decode(map, bp);
  return make_pair(map.snap, map.hoid);
}

std::pair<snapid_t, hobject_t> SnapMapper::from_raw(
  const ceph::buffer::list &image)
{
  using ceph::decode;
  Mapping map;
  auto bp = image.cbegin();
  decode(map, bp);
  return make_pair(map.snap, map.hoid);
}

bool SnapMapper::is_mapping(const string &to_test)
{
  return to_test.substr(0, MAPPING_PREFIX.size()) == MAPPING_PREFIX;
}

string SnapMapper::to_object_key(const hobject_t &hoid) const
{
  return OBJECT_PREFIX + shard_prefix + hoid.to_str();
}

void SnapMapper::object_snaps::encode(ceph::buffer::list &bl) const
{
  ENCODE_START(1, 1, bl);
  encode(oid, bl);
  encode(snaps, bl);
  ENCODE_FINISH(bl);
}

void SnapMapper::object_snaps::decode(ceph::buffer::list::const_iterator &bl)
{
  DECODE_START(1, bl);
  decode(oid, bl);
  decode(snaps, bl);
  DECODE_FINISH(bl);
}

bool SnapMapper::check(const hobject_t &hoid) const
{
  if (hoid.match(mask_bits, match)) {
    return true;
  }
  derr << __func__ << " " << hoid << " mask_bits " << mask_bits
       << " match 0x" << std::hex << match << std::dec << " is false"
       << dendl;
  return false;
}

int SnapMapper::get_snaps(const hobject_t &oid, object_snaps *out) const
{
  auto snaps = get_snaps_common(oid);
  if (snaps) {
    *out = *snaps;
    return 0;
  }
  switch (auto e = snaps.error(); e.code) {
    case code_t::backend_error:
      return e.backend_error;
    case code_t::not_found:
      return -ENOENT;
    case code_t::inconsistent:
      // As this is a legacy interface, we cannot surprise the user with
      // a new error code here.
      return -ENOENT;
    default:
      // Can't happen. Just to keep the compiler happy.
      ceph_abort("get_snaps_common() returned invalid error code");
  }
}

tl::expected<std::set<snapid_t>, Scrub::SnapMapReaderI::result_t>
SnapMapper::get_snaps(const hobject_t &oid) const
{
  auto snaps = get_snaps_common(oid);
  if (snaps) {
    return snaps->snaps;
  }
  return tl::unexpected(snaps.error());
}

tl::expected<SnapMapper::object_snaps, Scrub::SnapMapReaderI::result_t>
SnapMapper::get_snaps_common(const hobject_t &oid) const
{
  ceph_assert(check(oid));
  set<string> keys{to_object_key(oid)};
  dout(20) << fmt::format("{}: key string: {} oid:{}", __func__, keys, oid)
	   << dendl;

  map<string, ceph::buffer::list> got;
  int r = backend.get_keys(keys, &got);
  if (r < 0) {
    dout(10) << __func__ << " " << oid << " got err " << r << dendl;
    return tl::unexpected(result_t{code_t::backend_error, r});
  }
  if (got.empty()) {
    dout(10) << __func__ << " " << oid << " got.empty()" << dendl;
    return tl::unexpected(result_t{code_t::not_found, -ENOENT});
  }

  object_snaps out;
  auto bp = got.begin()->second.cbegin();
  try {
    decode(out, bp);
  } catch (...) {
    dout(1) << __func__ << ": " << oid << " decode failed" << dendl;
    return tl::unexpected(result_t{code_t::backend_error, -EIO});
  }

  dout(20) << __func__ << " " << oid << " " << out.snaps << dendl;
  if (out.snaps.empty()) {
    dout(1) << __func__ << " " << oid << " empty snapset" << dendl;
    ceph_assert(!cct->_conf->osd_debug_verify_snaps);
  }
  return out;
}

std::set<std::string> SnapMapper::to_raw_keys(
  const hobject_t &clone,
  const std::set<snapid_t> &snaps) const
{
  std::set<std::string> keys;
  for (auto snap : snaps) {
    keys.insert(to_raw_key(snap, clone));
  }
  dout(20) << fmt::format(
		"{}: clone:{} snaps:{} -> keys: {}", __func__, clone, snaps,
		keys)
	   << dendl;
  return keys;
}

tl::expected<std::set<snapid_t>, result_t>
SnapMapper::get_snaps_check_consistency(const hobject_t &hoid) const
{
  // derive the set of snaps from the 'OBJ_' entry
  auto obj_snaps = get_snaps(hoid);
  if (!obj_snaps) {
    return obj_snaps;
  }

  // make sure we have the expected set of SNA_ entries:
  // we have the clone oid and the set of snaps relevant to this clone.
  // Let's construct all expected SNA_ key, then fetch them.

  auto mapping_keys = to_raw_keys(hoid, *obj_snaps);
  map<string, ceph::buffer::list> kvmap;
  auto r = backend.get_keys(mapping_keys, &kvmap);
  if (r < 0) {
    dout(10) << fmt::format(
		  "{}: backend error ({}) for cobject {}", __func__, r, hoid)
	     << dendl;
    // that's a backend error, but for the SNA_ entries. Let's treat it as an
    // internal consistency error (although a backend error would have made
    // sense too).
    return tl::unexpected(result_t{code_t::inconsistent, r});
  }

  std::set<snapid_t> snaps_from_mapping;
  for (auto &[k, v] : kvmap) {
    dout(20) << __func__ << " " << hoid << " " << k << dendl;
    // extract the object ID from the value fetched for an SNA mapping key
    auto [sn, obj] = SnapMapper::from_raw(v);
    if (obj != hoid) {
      dout(1) << fmt::format(
		   "{}: unexpected object ID {} for key{} (expected {})",
		   __func__, obj, k, hoid)
	      << dendl;
      return tl::unexpected(result_t{code_t::inconsistent});
    }
    snaps_from_mapping.insert(sn);
  }

  if (snaps_from_mapping != *obj_snaps) {
    dout(10) << fmt::format(
		  "{}: hoid:{} -> mapper internal inconsistency ({} vs {})",
		  __func__, hoid, *obj_snaps, snaps_from_mapping)
	     << dendl;
    return tl::unexpected(result_t{code_t::inconsistent});
  }
  dout(10) << fmt::format(
		"{}: snaps for {}: {}", __func__, hoid, snaps_from_mapping)
	   << dendl;
  return obj_snaps;
}

void SnapMapper::clear_snaps(
  const hobject_t &oid,
  MapCacher::Transaction<std::string, ceph::buffer::list> *t)
{
  dout(20) << __func__ << " " << oid << dendl;
  ceph_assert(check(oid));
  set<string> to_remove;
  to_remove.insert(to_object_key(oid));
  if (g_conf()->subsys.should_gather<ceph_subsys_osd, 20>()) {
    for (auto& i : to_remove) {
      dout(20) << __func__ << " rm " << i << dendl;
    }
  }
  backend.remove_keys(to_remove, t);
}

void SnapMapper::set_snaps(
  const hobject_t &oid,
  const object_snaps &in,
  MapCacher::Transaction<std::string, ceph::buffer::list> *t)
{
  ceph_assert(check(oid));
  map<string, ceph::buffer::list> to_set;
  ceph::buffer::list bl;
  encode(in, bl);
  to_set[to_object_key(oid)] = bl;
  dout(20) << __func__ << " " << oid << " " << in.snaps << dendl;
  if (g_conf()->subsys.should_gather<ceph_subsys_osd, 20>()) {
    for (auto& i : to_set) {
      dout(20) << __func__ << " set " << i.first << dendl;
    }
  }
  backend.set_keys(to_set, t);
}

int SnapMapper::update_snaps(
  const hobject_t &oid,
  const set<snapid_t> &new_snaps,
  const set<snapid_t> *old_snaps_check,
  MapCacher::Transaction<std::string, ceph::buffer::list> *t)
{
  dout(20) << __func__ << " " << oid << " " << new_snaps
	   << " was " << (old_snaps_check ? *old_snaps_check : set<snapid_t>())
	   << dendl;
  ceph_assert(check(oid));
  if (new_snaps.empty())
    return remove_oid(oid, t);

  object_snaps out;
  int r = get_snaps(oid, &out);
  // Tolerate missing keys but not disk errors
  if (r < 0 && r != -ENOENT)
    return r;
  if (old_snaps_check)
    ceph_assert(out.snaps == *old_snaps_check);

  object_snaps in(oid, new_snaps);
  set_snaps(oid, in, t);

  set<string> to_remove;
  for (set<snapid_t>::iterator i = out.snaps.begin();
       i != out.snaps.end();
       ++i) {
    if (!new_snaps.count(*i)) {
      to_remove.insert(to_raw_key(make_pair(*i, oid)));
    }
  }
  if (g_conf()->subsys.should_gather<ceph_subsys_osd, 20>()) {
    for (auto& i : to_remove) {
      dout(20) << __func__ << " rm " << i << dendl;
    }
  }
  backend.remove_keys(to_remove, t);
  return 0;
}

void SnapMapper::add_oid(
  const hobject_t &oid,
  const set<snapid_t>& snaps,
  MapCacher::Transaction<std::string, ceph::buffer::list> *t)
{
  dout(20) << __func__ << " " << oid << " " << snaps << dendl;
  ceph_assert(!snaps.empty());
  ceph_assert(check(oid));
  {
    object_snaps out;
    int r = get_snaps(oid, &out);
    if (r != -ENOENT) {
      derr << __func__ << " found existing snaps mapped on " << oid
	   << ", removing" << dendl;
      ceph_assert(!cct->_conf->osd_debug_verify_snaps);
      remove_oid(oid, t);
    }
  }

  object_snaps _snaps(oid, snaps);
  set_snaps(oid, _snaps, t);

  map<string, ceph::buffer::list> to_add;
  for (set<snapid_t>::iterator i = snaps.begin();
       i != snaps.end();
       ++i) {
    to_add.insert(to_raw(make_pair(*i, oid)));
  }
  if (g_conf()->subsys.should_gather<ceph_subsys_osd, 20>()) {
    for (auto& i : to_add) {
      dout(20) << __func__ << " set " << i.first << dendl;
    }
  }
  backend.set_keys(to_add, t);
}

int SnapMapper::get_next_objects_to_trim(
  snapid_t snap,
  unsigned max,
  vector<hobject_t> *out)
{
  ceph_assert(out);
  ceph_assert(out->empty());

  // if max would be 0, we return ENOENT and the caller would mistakenly
  // trim the snaptrim queue
  ceph_assert(max > 0);
  int r = 0;

  /// \todo cache the prefixes-set in update_bits()
  for (set<string>::iterator i = prefixes.begin();
       i != prefixes.end() && out->size() < max && r == 0;
       ++i) {
    string prefix(get_prefix(pool, snap) + *i);
    string pos = prefix;
    while (out->size() < max) {
      pair<string, ceph::buffer::list> next;
      r = backend.get_next(pos, &next);
      dout(20) << __func__ << " get_next(" << pos << ") returns " << r
	       << " " << next << dendl;
      if (r != 0) {
	break; // Done
      }

      if (next.first.substr(0, prefix.size()) !=
	  prefix) {
	break; // Done with this prefix
      }

      ceph_assert(is_mapping(next.first));

      dout(20) << __func__ << " " << next.first << dendl;
      pair<snapid_t, hobject_t> next_decoded(from_raw(next));
      ceph_assert(next_decoded.first == snap);
      ceph_assert(check(next_decoded.second));

      out->push_back(next_decoded.second);
      pos = next.first;
    }
  }
  if (out->size() == 0) {
    return -ENOENT;
  } else {
    return 0;
  }
}


int SnapMapper::remove_oid(
  const hobject_t &oid,
  MapCacher::Transaction<std::string, ceph::buffer::list> *t)
{
  dout(20) << __func__ << " " << oid << dendl;
  ceph_assert(check(oid));
  return _remove_oid(oid, t);
}

int SnapMapper::_remove_oid(
  const hobject_t &oid,
  MapCacher::Transaction<std::string, ceph::buffer::list> *t)
{
  dout(20) << __func__ << " " << oid << dendl;
  object_snaps out;
  int r = get_snaps(oid, &out);
  if (r < 0)
    return r;

  clear_snaps(oid, t);

  set<string> to_remove;
  for (set<snapid_t>::iterator i = out.snaps.begin();
       i != out.snaps.end();
       ++i) {
    to_remove.insert(to_raw_key(make_pair(*i, oid)));
  }
  if (g_conf()->subsys.should_gather<ceph_subsys_osd, 20>()) {
    for (auto& i : to_remove) {
      dout(20) << __func__ << " rm " << i << dendl;
    }
  }
  backend.remove_keys(to_remove, t);
  return 0;
}

int SnapMapper::get_snaps(
  const hobject_t &oid,
  std::set<snapid_t> *snaps) const
{
  ceph_assert(check(oid));
  object_snaps out;
  int r = get_snaps(oid, &out);
  if (r < 0)
    return r;
  if (snaps)
    snaps->swap(out.snaps);
  return 0;
}


// -- purged snaps --

string SnapMapper::make_purged_snap_key(int64_t pool, snapid_t last)
{
  return fmt::sprintf("%s_%lld_%016llx",
		      PURGED_SNAP_PREFIX,
		      pool,
		      last);
}

void SnapMapper::make_purged_snap_key_value(
  int64_t pool, snapid_t begin, snapid_t end, map<string,ceph::buffer::list> *m)
{
  string k = make_purged_snap_key(pool, end - 1);
  auto& v = (*m)[k];
  ceph::encode(pool, v);
  ceph::encode(begin, v);
  ceph::encode(end, v);
}

int SnapMapper::_lookup_purged_snap(
  CephContext *cct,
  OSDriver& backend,
  int64_t pool, snapid_t snap,
  snapid_t *begin, snapid_t *end)
{
  string k = make_purged_snap_key(pool, snap);
  std::pair<std::string, ceph::buffer::list> kv;
  if (auto ret = backend.get_next_or_current(k, &kv); ret == -ENOENT) {
    dout(20) << __func__ << " pool " << pool << " snap " << snap
	     << " key '" << k << "' lower_bound not found" << dendl;
    return -ENOENT;
  }
  if (kv.first.find(PURGED_SNAP_PREFIX) != 0) {
    dout(20) << __func__ << " pool " << pool << " snap " << snap
	     << " key '" << k << "' lower_bound got mismatched prefix '"
	     << kv.first << "'" << dendl;
    return -ENOENT;
  }
  ceph::buffer::list v = kv.second;
  auto p = v.cbegin();
  int64_t gotpool;
  decode(gotpool, p);
  decode(*begin, p);
  decode(*end, p);
  if (snap < *begin || snap >= *end) {
    dout(20) << __func__ << " pool " << pool << " snap " << snap
	     << " found [" << *begin << "," << *end << "), no overlap" << dendl;
    return -ENOENT;
  }
  return 0;
}

void SnapMapper::record_purged_snaps(
  CephContext *cct,
  OSDriver& backend,
  OSDriver::OSTransaction&& txn,
  map<epoch_t,mempool::osdmap::map<int64_t,snap_interval_set_t>> purged_snaps)
{
  dout(10) << __func__ << " purged_snaps " << purged_snaps << dendl;
  map<string,ceph::buffer::list> m;
  set<string> rm;
  for (auto& [epoch, bypool] : purged_snaps) {
    // index by (pool, snap)
    for (auto& [pool, snaps] : bypool) {
      for (auto i = snaps.begin();
	   i != snaps.end();
	   ++i) {
	snapid_t begin = i.get_start();
	snapid_t end = i.get_end();
	snapid_t before_begin, before_end;
	snapid_t after_begin, after_end;
	int b = _lookup_purged_snap(cct, backend,
				    pool, begin - 1, &before_begin, &before_end);
	int a = _lookup_purged_snap(cct, backend,
				    pool, end, &after_begin, &after_end);
	if (!b && !a) {
	  dout(10) << __func__
		   << " [" << begin << "," << end << ") - joins ["
		   << before_begin << "," << before_end << ") and ["
		   << after_begin << "," << after_end << ")" << dendl;
	  // erase only the begin record; we'll overwrite the end one
	  rm.insert(make_purged_snap_key(pool, before_end - 1));
	  make_purged_snap_key_value(pool, before_begin, after_end, &m);
	} else if (!b) {
	  dout(10) << __func__
		   << " [" << begin << "," << end << ") - join with earlier ["
		   << before_begin << "," << before_end << ")" << dendl;
	  rm.insert(make_purged_snap_key(pool, before_end - 1));
	  make_purged_snap_key_value(pool, before_begin, end, &m);
	} else if (!a) {
	  dout(10) << __func__
		   << " [" << begin << "," << end << ") - join with later ["
		   << after_begin << "," << after_end << ")" << dendl;
	  // overwrite after record
	  make_purged_snap_key_value(pool, begin, after_end, &m);
	} else {
	  make_purged_snap_key_value(pool, begin, end, &m);
	}
      }
    }
  }
  txn.remove_keys(rm);
  txn.set_keys(m);
  dout(10) << __func__ << " rm " << rm.size() << " keys, set " << m.size()
	   << " keys" << dendl;
}


#ifndef WITH_SEASTAR
bool SnapMapper::Scrubber::_parse_p()
{
  if (!psit->valid()) {
    pool = -1;
    return false;
  }
  if (psit->key().find(PURGED_SNAP_PREFIX) != 0) {
    pool = -1;
    return false;
  }
  ceph::buffer::list v = psit->value();
  auto p = v.cbegin();
  ceph::decode(pool, p);
  ceph::decode(begin, p);
  ceph::decode(end, p);
  dout(20) << __func__ << " purged_snaps pool " << pool
	   << " [" << begin << "," << end << ")" << dendl;
  psit->next();
  return true;
}

bool SnapMapper::Scrubber::_parse_m()
{
  if (!mapit->valid()) {
    return false;
  }
  if (mapit->key().find(MAPPING_PREFIX) != 0) {
    return false;
  }
  auto v = mapit->value();
  auto p = v.cbegin();
  mapping.decode(p);

  {
    unsigned long long p, s;
    long sh;
    string k = mapit->key();
    int r = sscanf(k.c_str(), "SNA_%lld_%llx.%lx", &p, &s, &sh);
    if (r != 1) {
      shard = shard_id_t::NO_SHARD;
    } else {
      shard = shard_id_t(sh);
    }
  }
  dout(20) << __func__ << " mapping pool " << mapping.hoid.pool
	   << " snap " << mapping.snap
	   << " shard " << shard
	   << " " << mapping.hoid << dendl;
  mapit->next();
  return true;
}

void SnapMapper::Scrubber::run()
{
  dout(10) << __func__ << dendl;

  psit = store->get_omap_iterator(ch, purged_snaps_hoid);
  psit->upper_bound(PURGED_SNAP_PREFIX);
  _parse_p();

  mapit = store->get_omap_iterator(ch, mapping_hoid);
  mapit->upper_bound(MAPPING_PREFIX);

  while (_parse_m()) {
    // advance to next purged_snaps range?
    while (pool >= 0 &&
	   (mapping.hoid.pool > pool ||
	    (mapping.hoid.pool == pool && mapping.snap >= end))) {
      _parse_p();
    }
    if (pool < 0) {
      dout(10) << __func__ << " passed final purged_snaps interval, rest ok"
	       << dendl;
      break;
    }
    if (mapping.hoid.pool < pool ||
	mapping.snap < begin) {
      // ok
      dout(20) << __func__ << " ok " << mapping.hoid
	       << " snap " << mapping.snap
	       << " precedes pool " << pool
	       << " purged_snaps [" << begin << "," << end << ")" << dendl;
    } else {
      assert(mapping.snap >= begin &&
	     mapping.snap < end &&
	     mapping.hoid.pool == pool);
      // invalid
      dout(10) << __func__ << " stray " << mapping.hoid
	       << " snap " << mapping.snap
	       << " in pool " << pool
	       << " shard " << shard
	       << " purged_snaps [" << begin << "," << end << ")" << dendl;
      stray.emplace_back(std::tuple<int64_t,snapid_t,uint32_t,shard_id_t>(
			   pool, mapping.snap, mapping.hoid.get_hash(),
			   shard
			   ));
    }
  }

  dout(10) << __func__ << " end, found " << stray.size() << " stray" << dendl;
  psit = ObjectMap::ObjectMapIterator();
  mapit = ObjectMap::ObjectMapIterator();
}
#endif // !WITH_SEASTAR


// -------------------------------------
// legacy conversion/support

string SnapMapper::get_legacy_prefix(snapid_t snap)
{
  return fmt::sprintf("%s%.16X_",
		      LEGACY_MAPPING_PREFIX,
		      snap);
}

string SnapMapper::to_legacy_raw_key(
  const pair<snapid_t, hobject_t> &in)
{
  return get_legacy_prefix(in.first) + shard_prefix + in.second.to_str();
}

bool SnapMapper::is_legacy_mapping(const string &to_test)
{
  return to_test.substr(0, LEGACY_MAPPING_PREFIX.size()) ==
    LEGACY_MAPPING_PREFIX;
}

#ifndef WITH_SEASTAR
/* Octopus modified the SnapMapper key format from
 *
 *  <LEGACY_MAPPING_PREFIX><snapid>_<shardid>_<hobject_t::to_str()>
 *
 * to
 *
 *  <MAPPING_PREFIX><pool>_<snapid>_<shardid>_<hobject_t::to_str()>
 *
 * We can't reconstruct the new key format just from the value since the
 * Mapping object contains an hobject rather than a ghobject. Instead,
 * we exploit the fact that the new format is identical starting at <snapid>.
 *
 * Note that the original version of this conversion introduced in 94ebe0ea
 * had a crucial bug which essentially destroyed legacy keys by mapping
 * them to
 *
 *  <MAPPING_PREFIX><poolid>_<snapid>_
 *
 * without the object-unique suffix.
 * See https://tracker.ceph.com/issues/56147
 */
std::string SnapMapper::convert_legacy_key(
  const std::string& old_key,
  const ceph::buffer::list& value)
{
  auto old = from_raw(make_pair(old_key, value));
  std::string object_suffix = old_key.substr(
    SnapMapper::LEGACY_MAPPING_PREFIX.length());
  return SnapMapper::MAPPING_PREFIX + std::to_string(old.second.pool)
    + "_" + object_suffix;
}

int SnapMapper::convert_legacy(
  CephContext *cct,
  ObjectStore *store,
  ObjectStore::CollectionHandle& ch,
  ghobject_t hoid,
  unsigned max)
{
  uint64_t n = 0;

  ObjectMap::ObjectMapIterator iter = store->get_omap_iterator(ch, hoid);
  if (!iter) {
    return -EIO;
  }

  auto start = ceph::mono_clock::now();

  iter->upper_bound(SnapMapper::LEGACY_MAPPING_PREFIX);
  map<string,ceph::buffer::list> to_set;
  while (iter->valid()) {
    bool valid = SnapMapper::is_legacy_mapping(iter->key());
    if (valid) {
      to_set.emplace(
	convert_legacy_key(iter->key(), iter->value()),
	iter->value());
      ++n;
      iter->next();
    }
    if (!valid || !iter->valid() || to_set.size() >= max) {
      ObjectStore::Transaction t;
      t.omap_setkeys(ch->cid, hoid, to_set);
      int r = store->queue_transaction(ch, std::move(t));
      ceph_assert(r == 0);
      to_set.clear();
      if (!valid) {
	break;
      }
      dout(10) << __func__ << " converted " << n << " keys" << dendl;
    }
  }

  auto end = ceph::mono_clock::now();

  dout(1) << __func__ << " converted " << n << " keys in "
	  << timespan_str(end - start) << dendl;

  // remove the old keys
  {
    ObjectStore::Transaction t;
    string end = SnapMapper::LEGACY_MAPPING_PREFIX;
    ++end[end.size()-1]; // turn _ to whatever comes after _
    t.omap_rmkeyrange(ch->cid, hoid,
		      SnapMapper::LEGACY_MAPPING_PREFIX,
		      end);
    int r = store->queue_transaction(ch, std::move(t));
    ceph_assert(r == 0);
  }
  return 0;
}
#endif // !WITH_SEASTAR