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|
// -*- 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) 2015 Red Hat
*
* 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 "common/debug.h"
#include "mds/mdstypes.h"
#include "mds/CInode.h"
#include "mds/MDCache.h"
#include "PurgeQueue.h"
#define dout_context cct
#define dout_subsys ceph_subsys_mds
#undef dout_prefix
#define dout_prefix _prefix(_dout, rank) << __func__ << ": "
using namespace std;
static ostream& _prefix(std::ostream *_dout, mds_rank_t rank) {
return *_dout << "mds." << rank << ".purge_queue ";
}
const std::map<std::string, PurgeItem::Action> PurgeItem::actions = {
{"NONE", PurgeItem::NONE},
{"PURGE_FILE", PurgeItem::PURGE_FILE},
{"TRUNCATE_FILE", PurgeItem::TRUNCATE_FILE},
{"PURGE_DIR", PurgeItem::PURGE_DIR}
};
void PurgeItem::encode(bufferlist &bl) const
{
ENCODE_START(2, 1, bl);
encode((uint8_t)action, bl);
encode(ino, bl);
encode(size, bl);
encode(layout, bl, CEPH_FEATURE_FS_FILE_LAYOUT_V2);
encode(old_pools, bl);
encode(snapc, bl);
encode(fragtree, bl);
encode(stamp, bl);
uint8_t static const pad = 0xff;
for (unsigned int i = 0; i<pad_size; i++) {
encode(pad, bl);
}
ENCODE_FINISH(bl);
}
void PurgeItem::decode(bufferlist::const_iterator &p)
{
DECODE_START(2, p);
bool done = false;
if (struct_v == 1) {
auto p_start = p;
try {
// bad encoding introduced by v13.2.2
decode(stamp, p);
decode(pad_size, p);
p += pad_size;
uint8_t raw_action;
decode(raw_action, p);
action = (Action)raw_action;
decode(ino, p);
decode(size, p);
decode(layout, p);
decode(old_pools, p);
decode(snapc, p);
decode(fragtree, p);
if (p.get_off() > struct_end)
throw buffer::end_of_buffer();
done = true;
} catch (const buffer::error &e) {
p = p_start;
}
}
if (!done) {
uint8_t raw_action;
decode(raw_action, p);
action = (Action)raw_action;
decode(ino, p);
decode(size, p);
decode(layout, p);
decode(old_pools, p);
decode(snapc, p);
decode(fragtree, p);
if (struct_v >= 2) {
decode(stamp, p);
}
}
DECODE_FINISH(p);
}
// if Objecter has any slow requests, take that as a hint and
// slow down our rate of purging
PurgeQueue::PurgeQueue(
CephContext *cct_,
mds_rank_t rank_,
const int64_t metadata_pool_,
Objecter *objecter_,
Context *on_error_)
:
cct(cct_),
rank(rank_),
metadata_pool(metadata_pool_),
finisher(cct, "PurgeQueue", "PQ_Finisher"),
timer(cct, lock),
filer(objecter_, &finisher),
objecter(objecter_),
journaler("pq", MDS_INO_PURGE_QUEUE + rank, metadata_pool,
CEPH_FS_ONDISK_MAGIC, objecter_, nullptr, 0,
&finisher),
on_error(on_error_)
{
ceph_assert(cct != nullptr);
ceph_assert(on_error != nullptr);
ceph_assert(objecter != nullptr);
journaler.set_write_error_handler(on_error);
}
PurgeQueue::~PurgeQueue()
{
if (logger) {
g_ceph_context->get_perfcounters_collection()->remove(logger.get());
}
delete on_error;
}
void PurgeQueue::create_logger()
{
PerfCountersBuilder pcb(g_ceph_context, "purge_queue", l_pq_first, l_pq_last);
pcb.add_u64_counter(l_pq_executed, "pq_executed", "Purge queue tasks executed",
"purg", PerfCountersBuilder::PRIO_INTERESTING);
pcb.set_prio_default(PerfCountersBuilder::PRIO_USEFUL);
pcb.add_u64(l_pq_executing_ops, "pq_executing_ops", "Purge queue ops in flight");
pcb.add_u64(l_pq_executing_ops_high_water, "pq_executing_ops_high_water", "Maximum number of executing file purge ops");
pcb.add_u64(l_pq_executing, "pq_executing", "Purge queue tasks in flight");
pcb.add_u64(l_pq_executing_high_water, "pq_executing_high_water", "Maximum number of executing file purges");
pcb.add_u64(l_pq_item_in_journal, "pq_item_in_journal", "Purge item left in journal");
logger.reset(pcb.create_perf_counters());
g_ceph_context->get_perfcounters_collection()->add(logger.get());
}
void PurgeQueue::init()
{
std::lock_guard l(lock);
ceph_assert(logger != nullptr);
finisher.start();
timer.init();
}
void PurgeQueue::activate()
{
std::lock_guard l(lock);
{
PurgeItem item;
bufferlist bl;
// calculate purge item serialized size stored in journal
// used to count how many items still left in journal later
::encode(item, bl);
purge_item_journal_size = bl.length() + journaler.get_journal_envelope_size();
}
if (readonly) {
dout(10) << "skipping activate: PurgeQueue is readonly" << dendl;
return;
}
if (journaler.get_read_pos() == journaler.get_write_pos())
return;
if (in_flight.empty()) {
dout(4) << "start work (by drain)" << dendl;
finisher.queue(new LambdaContext([this](int r) {
std::lock_guard l(lock);
_consume();
}));
}
}
void PurgeQueue::shutdown()
{
std::lock_guard l(lock);
journaler.shutdown();
timer.shutdown();
finisher.stop();
}
void PurgeQueue::open(Context *completion)
{
dout(4) << "opening" << dendl;
std::lock_guard l(lock);
if (completion)
waiting_for_recovery.push_back(completion);
journaler.recover(new LambdaContext([this](int r){
if (r == -CEPHFS_ENOENT) {
dout(1) << "Purge Queue not found, assuming this is an upgrade and "
"creating it." << dendl;
create(NULL);
} else if (r == 0) {
std::lock_guard l(lock);
dout(4) << "open complete" << dendl;
// Journaler only guarantees entries before head write_pos have been
// fully flushed. Before appending new entries, we need to find and
// drop any partial written entry.
if (journaler.last_committed.write_pos < journaler.get_write_pos()) {
dout(4) << "recovering write_pos" << dendl;
journaler.set_read_pos(journaler.last_committed.write_pos);
_recover();
return;
}
journaler.set_writeable();
recovered = true;
finish_contexts(g_ceph_context, waiting_for_recovery);
} else {
derr << "Error " << r << " loading Journaler" << dendl;
_go_readonly(r);
}
}));
}
void PurgeQueue::wait_for_recovery(Context* c)
{
std::lock_guard l(lock);
if (recovered) {
c->complete(0);
} else if (readonly) {
dout(10) << "cannot wait for recovery: PurgeQueue is readonly" << dendl;
c->complete(-CEPHFS_EROFS);
} else {
waiting_for_recovery.push_back(c);
}
}
void PurgeQueue::_recover()
{
ceph_assert(ceph_mutex_is_locked_by_me(lock));
// Journaler::is_readable() adjusts write_pos if partial entry is encountered
while (1) {
if (!journaler.is_readable() &&
!journaler.get_error() &&
journaler.get_read_pos() < journaler.get_write_pos()) {
journaler.wait_for_readable(new LambdaContext([this](int r) {
std::lock_guard l(lock);
_recover();
}));
return;
}
if (journaler.get_error()) {
int r = journaler.get_error();
derr << "Error " << r << " recovering write_pos" << dendl;
_go_readonly(r);
return;
}
if (journaler.get_read_pos() == journaler.get_write_pos()) {
dout(4) << "write_pos recovered" << dendl;
// restore original read_pos
journaler.set_read_pos(journaler.last_committed.expire_pos);
journaler.set_writeable();
recovered = true;
finish_contexts(g_ceph_context, waiting_for_recovery);
return;
}
bufferlist bl;
bool readable = journaler.try_read_entry(bl);
ceph_assert(readable); // we checked earlier
}
}
void PurgeQueue::create(Context *fin)
{
dout(4) << "creating" << dendl;
std::lock_guard l(lock);
if (fin)
waiting_for_recovery.push_back(fin);
file_layout_t layout = file_layout_t::get_default();
layout.pool_id = metadata_pool;
journaler.set_writeable();
journaler.create(&layout, JOURNAL_FORMAT_RESILIENT);
journaler.write_head(new LambdaContext([this](int r) {
std::lock_guard l(lock);
if (r) {
_go_readonly(r);
} else {
recovered = true;
finish_contexts(g_ceph_context, waiting_for_recovery);
}
}));
}
/**
* The `completion` context will always be called back via a Finisher
*/
void PurgeQueue::push(const PurgeItem &pi, Context *completion)
{
dout(4) << "pushing inode " << pi.ino << dendl;
std::lock_guard l(lock);
if (readonly) {
dout(10) << "cannot push inode: PurgeQueue is readonly" << dendl;
completion->complete(-CEPHFS_EROFS);
return;
}
// Callers should have waited for open() before using us
ceph_assert(!journaler.is_readonly());
bufferlist bl;
encode(pi, bl);
journaler.append_entry(bl);
journaler.wait_for_flush(completion);
// Maybe go ahead and do something with it right away
bool could_consume = _consume();
if (!could_consume) {
// Usually, it is not necessary to explicitly flush here, because the reader
// will get flushes generated inside Journaler::is_readable. However,
// if we remain in a _can_consume()==false state for a long period then
// we should flush in order to allow MDCache to drop its strays rather
// than having them wait for purgequeue to progress.
if (!delayed_flush) {
delayed_flush = new LambdaContext([this](int r){
delayed_flush = nullptr;
journaler.flush();
});
timer.add_event_after(
g_conf()->mds_purge_queue_busy_flush_period,
delayed_flush);
}
}
}
uint32_t PurgeQueue::_calculate_ops(const PurgeItem &item) const
{
uint32_t ops_required = 0;
if (item.action == PurgeItem::PURGE_DIR) {
// Directory, count dirfrags to be deleted
frag_vec_t leaves;
if (!item.fragtree.is_leaf(frag_t())) {
item.fragtree.get_leaves(leaves);
}
// One for the root, plus any leaves
ops_required = 1 + leaves.size();
} else {
// File, work out concurrent Filer::purge deletes
// Account for removing (or zeroing) backtrace
const uint64_t num = (item.size > 0) ?
Striper::get_num_objects(item.layout, item.size) : 1;
ops_required = num;
// Account for deletions for old pools
if (item.action != PurgeItem::TRUNCATE_FILE) {
ops_required += item.old_pools.size();
}
}
return ops_required;
}
bool PurgeQueue::_can_consume()
{
if (readonly) {
dout(10) << "can't consume: PurgeQueue is readonly" << dendl;
return false;
}
dout(20) << ops_in_flight << "/" << max_purge_ops << " ops, "
<< in_flight.size() << "/" << g_conf()->mds_max_purge_files
<< " files" << dendl;
if (in_flight.size() == 0 && cct->_conf->mds_max_purge_files > 0) {
// Always permit consumption if nothing is in flight, so that the ops
// limit can never be so low as to forbid all progress (unless
// administrator has deliberately paused purging by setting max
// purge files to zero).
return true;
}
if (ops_in_flight >= max_purge_ops) {
dout(20) << "Throttling on op limit " << ops_in_flight << "/"
<< max_purge_ops << dendl;
return false;
}
if (in_flight.size() >= cct->_conf->mds_max_purge_files) {
dout(20) << "Throttling on item limit " << in_flight.size()
<< "/" << cct->_conf->mds_max_purge_files << dendl;
return false;
} else {
return true;
}
}
void PurgeQueue::_go_readonly(int r)
{
if (readonly) return;
dout(1) << "going readonly because internal IO failed: " << strerror(-r) << dendl;
readonly = true;
finisher.queue(on_error, r);
on_error = nullptr;
journaler.set_readonly();
finish_contexts(g_ceph_context, waiting_for_recovery, r);
}
bool PurgeQueue::_consume()
{
ceph_assert(ceph_mutex_is_locked_by_me(lock));
bool could_consume = false;
while(_can_consume()) {
if (delayed_flush) {
// We are now going to read from the journal, so any proactive
// flush is no longer necessary. This is not functionally necessary
// but it can avoid generating extra fragmented flush IOs.
timer.cancel_event(delayed_flush);
delayed_flush = nullptr;
}
if (int r = journaler.get_error()) {
derr << "Error " << r << " recovering write_pos" << dendl;
_go_readonly(r);
return could_consume;
}
if (!journaler.is_readable()) {
dout(10) << " not readable right now" << dendl;
// Because we are the writer and the reader of the journal
// via the same Journaler instance, we never need to reread_head
if (!journaler.have_waiter()) {
journaler.wait_for_readable(new LambdaContext([this](int r) {
std::lock_guard l(lock);
if (r == 0) {
_consume();
} else if (r != -CEPHFS_EAGAIN) {
_go_readonly(r);
}
}));
}
return could_consume;
}
could_consume = true;
// The journaler is readable: consume an entry
bufferlist bl;
bool readable = journaler.try_read_entry(bl);
ceph_assert(readable); // we checked earlier
dout(20) << " decoding entry" << dendl;
PurgeItem item;
auto q = bl.cbegin();
try {
decode(item, q);
} catch (const buffer::error &err) {
derr << "Decode error at read_pos=0x" << std::hex
<< journaler.get_read_pos() << dendl;
_go_readonly(CEPHFS_EIO);
}
dout(20) << " executing item (" << item.ino << ")" << dendl;
_execute_item(item, journaler.get_read_pos());
}
dout(10) << " cannot consume right now" << dendl;
return could_consume;
}
class C_IO_PurgeItem_Commit : public Context {
public:
C_IO_PurgeItem_Commit(PurgeQueue *pq, std::vector<PurgeItemCommitOp> ops, uint64_t expire_to)
: purge_queue(pq), ops_vec(std::move(ops)), expire_to(expire_to) {
}
void finish(int r) override {
purge_queue->_commit_ops(r, ops_vec, expire_to);
}
private:
PurgeQueue *purge_queue;
std::vector<PurgeItemCommitOp> ops_vec;
uint64_t expire_to;
};
void PurgeQueue::_commit_ops(int r, const std::vector<PurgeItemCommitOp>& ops_vec, uint64_t expire_to)
{
if (r < 0) {
derr << " r = " << r << dendl;
return;
}
SnapContext nullsnapc;
C_GatherBuilder gather(cct);
for (auto &op : ops_vec) {
dout(10) << op.item.get_type_str() << dendl;
if (op.type == PurgeItemCommitOp::PURGE_OP_RANGE) {
uint64_t first_obj = 0, num_obj = 0;
uint64_t num = Striper::get_num_objects(op.item.layout, op.item.size);
num_obj = num;
if (op.item.action == PurgeItem::TRUNCATE_FILE) {
first_obj = 1;
if (num > 1)
num_obj = num - 1;
else
continue;
}
filer.purge_range(op.item.ino, &op.item.layout, op.item.snapc,
first_obj, num_obj, ceph::real_clock::now(), op.flags,
gather.new_sub());
} else if (op.type == PurgeItemCommitOp::PURGE_OP_REMOVE) {
if (op.item.action == PurgeItem::PURGE_DIR) {
objecter->remove(op.oid, op.oloc, nullsnapc,
ceph::real_clock::now(), op.flags,
gather.new_sub());
} else {
objecter->remove(op.oid, op.oloc, op.item.snapc,
ceph::real_clock::now(), op.flags,
gather.new_sub());
}
} else if (op.type == PurgeItemCommitOp::PURGE_OP_ZERO) {
filer.zero(op.item.ino, &op.item.layout, op.item.snapc,
0, op.item.layout.object_size, ceph::real_clock::now(), 0, true,
gather.new_sub());
} else {
derr << "Invalid purge op: " << op.type << dendl;
ceph_abort();
}
}
ceph_assert(gather.has_subs());
gather.set_finisher(new C_OnFinisher(
new LambdaContext([this, expire_to](int r) {
std::lock_guard l(lock);
if (r == -CEPHFS_EBLOCKLISTED) {
finisher.queue(on_error, r);
on_error = nullptr;
return;
}
_execute_item_complete(expire_to);
_consume();
// Have we gone idle? If so, do an extra write_head now instead of
// waiting for next flush after journaler_write_head_interval.
// Also do this periodically even if not idle, so that the persisted
// expire_pos doesn't fall too far behind our progress when consuming
// a very long queue.
if (!readonly &&
(in_flight.empty() || journaler.write_head_needed())) {
journaler.write_head(nullptr);
}
}), &finisher));
gather.activate();
}
void PurgeQueue::_execute_item(
const PurgeItem &item,
uint64_t expire_to)
{
ceph_assert(ceph_mutex_is_locked_by_me(lock));
in_flight[expire_to] = item;
logger->set(l_pq_executing, in_flight.size());
files_high_water = std::max<uint64_t>(files_high_water,
in_flight.size());
logger->set(l_pq_executing_high_water, files_high_water);
auto ops = _calculate_ops(item);
ops_in_flight += ops;
logger->set(l_pq_executing_ops, ops_in_flight);
ops_high_water = std::max(ops_high_water, ops_in_flight);
logger->set(l_pq_executing_ops_high_water, ops_high_water);
std::vector<PurgeItemCommitOp> ops_vec;
auto submit_ops = [&]() {
finisher.queue(new C_IO_PurgeItem_Commit(this, std::move(ops_vec), expire_to));
};
if (item.action == PurgeItem::PURGE_FILE) {
if (item.size > 0) {
uint64_t num = Striper::get_num_objects(item.layout, item.size);
dout(10) << " 0~" << item.size << " objects 0~" << num
<< " snapc " << item.snapc << " on " << item.ino << dendl;
ops_vec.emplace_back(item, PurgeItemCommitOp::PURGE_OP_RANGE, 0);
}
// remove the backtrace object if it was not purged
object_t oid = CInode::get_object_name(item.ino, frag_t(), "");
if (ops_vec.empty() || !item.layout.pool_ns.empty()) {
object_locator_t oloc(item.layout.pool_id);
dout(10) << " remove backtrace object " << oid
<< " pool " << oloc.pool << " snapc " << item.snapc << dendl;
ops_vec.emplace_back(item, PurgeItemCommitOp::PURGE_OP_REMOVE, 0, oid, oloc);
}
// remove old backtrace objects
for (const auto &p : item.old_pools) {
object_locator_t oloc(p);
dout(10) << " remove backtrace object " << oid
<< " old pool " << p << " snapc " << item.snapc << dendl;
ops_vec.emplace_back(item, PurgeItemCommitOp::PURGE_OP_REMOVE, 0, oid, oloc);
}
} else if (item.action == PurgeItem::PURGE_DIR) {
object_locator_t oloc(metadata_pool);
frag_vec_t leaves;
if (!item.fragtree.is_leaf(frag_t()))
item.fragtree.get_leaves(leaves);
leaves.push_back(frag_t());
for (const auto &leaf : leaves) {
object_t oid = CInode::get_object_name(item.ino, leaf, "");
dout(10) << " remove dirfrag " << oid << dendl;
ops_vec.emplace_back(item, PurgeItemCommitOp::PURGE_OP_REMOVE, 0, oid, oloc);
}
} else if (item.action == PurgeItem::TRUNCATE_FILE) {
const uint64_t num = Striper::get_num_objects(item.layout, item.size);
dout(10) << " 0~" << item.size << " objects 0~" << num
<< " snapc " << item.snapc << " on " << item.ino << dendl;
// keep backtrace object
if (num > 1) {
ops_vec.emplace_back(item, PurgeItemCommitOp::PURGE_OP_RANGE, 0);
}
ops_vec.emplace_back(item, PurgeItemCommitOp::PURGE_OP_ZERO, 0);
} else {
derr << "Invalid item (action=" << item.action << ") in purge queue, "
"dropping it" << dendl;
ops_in_flight -= ops;
logger->set(l_pq_executing_ops, ops_in_flight);
ops_high_water = std::max(ops_high_water, ops_in_flight);
logger->set(l_pq_executing_ops_high_water, ops_high_water);
in_flight.erase(expire_to);
logger->set(l_pq_executing, in_flight.size());
files_high_water = std::max<uint64_t>(files_high_water,
in_flight.size());
logger->set(l_pq_executing_high_water, files_high_water);
return;
}
submit_ops();
}
void PurgeQueue::_execute_item_complete(
uint64_t expire_to)
{
ceph_assert(ceph_mutex_is_locked_by_me(lock));
dout(10) << "complete at 0x" << std::hex << expire_to << std::dec << dendl;
ceph_assert(in_flight.count(expire_to) == 1);
auto iter = in_flight.find(expire_to);
ceph_assert(iter != in_flight.end());
if (iter == in_flight.begin()) {
uint64_t pos = expire_to;
if (!pending_expire.empty()) {
auto n = iter;
++n;
if (n == in_flight.end()) {
pos = *pending_expire.rbegin();
pending_expire.clear();
} else {
auto p = pending_expire.begin();
do {
if (*p >= n->first)
break;
pos = *p;
pending_expire.erase(p++);
} while (p != pending_expire.end());
}
}
dout(10) << "expiring to 0x" << std::hex << pos << std::dec << dendl;
journaler.set_expire_pos(pos);
} else {
// This is completely fine, we're not supposed to purge files in
// order when doing them in parallel.
dout(10) << "non-sequential completion, not expiring anything" << dendl;
pending_expire.insert(expire_to);
}
ops_in_flight -= _calculate_ops(iter->second);
logger->set(l_pq_executing_ops, ops_in_flight);
ops_high_water = std::max(ops_high_water, ops_in_flight);
logger->set(l_pq_executing_ops_high_water, ops_high_water);
dout(10) << "completed item for ino " << iter->second.ino << dendl;
in_flight.erase(iter);
logger->set(l_pq_executing, in_flight.size());
files_high_water = std::max<uint64_t>(files_high_water,
in_flight.size());
logger->set(l_pq_executing_high_water, files_high_water);
dout(10) << "in_flight.size() now " << in_flight.size() << dendl;
uint64_t write_pos = journaler.get_write_pos();
uint64_t read_pos = journaler.get_read_pos();
uint64_t expire_pos = journaler.get_expire_pos();
uint64_t item_num = (write_pos - (in_flight.size() ? expire_pos : read_pos))
/ purge_item_journal_size;
dout(10) << "left purge items in journal: " << item_num
<< " (purge_item_journal_size/write_pos/read_pos/expire_pos) now at "
<< "(" << purge_item_journal_size << "/" << write_pos << "/" << read_pos
<< "/" << expire_pos << ")" << dendl;
logger->set(l_pq_item_in_journal, item_num);
logger->inc(l_pq_executed);
}
void PurgeQueue::update_op_limit(const MDSMap &mds_map)
{
std::lock_guard l(lock);
if (readonly) {
dout(10) << "skipping; PurgeQueue is readonly" << dendl;
return;
}
uint64_t pg_count = 0;
objecter->with_osdmap([&](const OSDMap& o) {
// Number of PGs across all data pools
const std::vector<int64_t> &data_pools = mds_map.get_data_pools();
for (const auto dp : data_pools) {
if (o.get_pg_pool(dp) == NULL) {
// It is possible that we have an older OSDMap than MDSMap,
// because we don't start watching every OSDMap until after
// MDSRank is initialized
dout(4) << " data pool " << dp << " not found in OSDMap" << dendl;
continue;
}
pg_count += o.get_pg_num(dp);
}
});
// Work out a limit based on n_pgs / n_mdss, multiplied by the user's
// preference for how many ops per PG
max_purge_ops = uint64_t(((double)pg_count / (double)mds_map.get_max_mds()) *
cct->_conf->mds_max_purge_ops_per_pg);
// User may also specify a hard limit, apply this if so.
if (cct->_conf->mds_max_purge_ops) {
max_purge_ops = std::min(max_purge_ops, cct->_conf->mds_max_purge_ops);
}
}
void PurgeQueue::handle_conf_change(const std::set<std::string>& changed, const MDSMap& mds_map)
{
if (changed.count("mds_max_purge_ops")
|| changed.count("mds_max_purge_ops_per_pg")) {
update_op_limit(mds_map);
} else if (changed.count("mds_max_purge_files")) {
std::lock_guard l(lock);
if (in_flight.empty()) {
// We might have gone from zero to a finite limit, so
// might need to kick off consume.
dout(4) << "maybe start work again (max_purge_files="
<< g_conf()->mds_max_purge_files << dendl;
finisher.queue(new LambdaContext([this](int r){
std::lock_guard l(lock);
_consume();
}));
}
}
}
bool PurgeQueue::drain(
uint64_t *progress,
uint64_t *progress_total,
size_t *in_flight_count
)
{
std::lock_guard l(lock);
if (readonly) {
dout(10) << "skipping drain; PurgeQueue is readonly" << dendl;
return true;
}
ceph_assert(progress != nullptr);
ceph_assert(progress_total != nullptr);
ceph_assert(in_flight_count != nullptr);
const bool done = in_flight.empty() && (
journaler.get_read_pos() == journaler.get_write_pos());
if (done) {
return true;
}
const uint64_t bytes_remaining = journaler.get_write_pos()
- journaler.get_read_pos();
if (!draining) {
// Start of draining: remember how much there was outstanding at
// this point so that we can give a progress percentage later
draining = true;
// Life the op throttle as this daemon now has nothing to do but
// drain the purge queue, so do it as fast as we can.
max_purge_ops = 0xffff;
}
drain_initial = std::max(bytes_remaining, drain_initial);
*progress = drain_initial - bytes_remaining;
*progress_total = drain_initial;
*in_flight_count = in_flight.size();
return false;
}
std::string_view PurgeItem::get_type_str() const
{
switch(action) {
case PurgeItem::NONE: return "NONE";
case PurgeItem::PURGE_FILE: return "PURGE_FILE";
case PurgeItem::PURGE_DIR: return "PURGE_DIR";
case PurgeItem::TRUNCATE_FILE: return "TRUNCATE_FILE";
default:
return "UNKNOWN";
}
}
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