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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) 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 "include/compat.h"
#include "mdstypes.h"
#include "mon/MonClient.h"
#include "MDBalancer.h"
#include "MDSRank.h"
#include "MDSMap.h"
#include "CInode.h"
#include "CDir.h"
#include "MDCache.h"
#include "Migrator.h"
#include "Mantle.h"
#include "include/Context.h"
#include "msg/Messenger.h"
#include <fstream>
#include <vector>
#include <map>
using namespace std;
#include "common/config.h"
#include "common/errno.h"
/* Note, by default debug_mds_balancer is 1/5. For debug messages 1<lvl<=5,
* should_gather (below) will be true; so, debug_mds will be ignored even if
* set to 20/20. For this reason, some messages may not appear in the log.
* Increase both debug levels to get expected output!
*/
#define dout_context g_ceph_context
#undef dout_prefix
#define dout_prefix *_dout << "mds." << mds->get_nodeid() << ".bal " << __func__ << " "
#undef dout
#define dout(lvl) \
do {\
auto subsys = ceph_subsys_mds;\
if ((dout_context)->_conf->subsys.should_gather(ceph_subsys_mds_balancer, lvl)) {\
subsys = ceph_subsys_mds_balancer;\
}\
dout_impl(dout_context, ceph::dout::need_dynamic(subsys), lvl) dout_prefix
#undef dendl
#define dendl dendl_impl; } while (0)
#define MIN_LOAD 50 // ??
#define MIN_REEXPORT 5 // will automatically reexport
#define MIN_OFFLOAD 10 // point at which i stop trying, close enough
int MDBalancer::proc_message(const cref_t<Message> &m)
{
switch (m->get_type()) {
case MSG_MDS_HEARTBEAT:
handle_heartbeat(ref_cast<MHeartbeat>(m));
break;
default:
derr << " balancer unknown message " << m->get_type() << dendl_impl;
ceph_abort_msg("balancer unknown message");
}
return 0;
}
MDBalancer::MDBalancer(MDSRank *m, Messenger *msgr, MonClient *monc) :
mds(m), messenger(msgr), mon_client(monc)
{
bal_fragment_dirs = g_conf().get_val<bool>("mds_bal_fragment_dirs");
bal_fragment_interval = g_conf().get_val<int64_t>("mds_bal_fragment_interval");
}
void MDBalancer::handle_conf_change(const std::set<std::string>& changed, const MDSMap& mds_map)
{
if (changed.count("mds_bal_fragment_dirs")) {
bal_fragment_dirs = g_conf().get_val<bool>("mds_bal_fragment_dirs");
}
if (changed.count("mds_bal_fragment_interval")) {
bal_fragment_interval = g_conf().get_val<int64_t>("mds_bal_fragment_interval");
}
}
bool MDBalancer::test_rank_mask(mds_rank_t rank)
{
return mds->mdsmap->get_bal_rank_mask_bitset().test(rank);
}
void MDBalancer::handle_export_pins(void)
{
const mds_rank_t max_mds = mds->mdsmap->get_max_mds();
auto mdcache = mds->mdcache;
auto &q = mdcache->export_pin_queue;
auto it = q.begin();
dout(20) << "export_pin_queue size=" << q.size() << dendl;
while (it != q.end()) {
auto cur = it++;
CInode *in = *cur;
ceph_assert(in->is_dir());
mds_rank_t export_pin = in->get_export_pin(false);
in->check_pin_policy(export_pin);
if (export_pin >= max_mds) {
dout(20) << " delay export_pin=" << export_pin << " on " << *in << dendl;
in->state_clear(CInode::STATE_QUEUEDEXPORTPIN);
q.erase(cur);
in->state_set(CInode::STATE_DELAYEDEXPORTPIN);
mdcache->export_pin_delayed_queue.insert(in);
continue;
}
dout(20) << " executing export_pin=" << export_pin << " on " << *in << dendl;
unsigned min_frag_bits = 0;
mds_rank_t target = MDS_RANK_NONE;
if (export_pin >= 0)
target = export_pin;
else if (export_pin == MDS_RANK_EPHEMERAL_RAND)
target = mdcache->hash_into_rank_bucket(in->ino());
else if (export_pin == MDS_RANK_EPHEMERAL_DIST)
min_frag_bits = mdcache->get_ephemeral_dist_frag_bits();
bool remove = true;
for (auto&& dir : in->get_dirfrags()) {
if (!dir->is_auth())
continue;
if (export_pin == MDS_RANK_EPHEMERAL_DIST) {
if (dir->get_frag().bits() < min_frag_bits) {
if (!dir->state_test(CDir::STATE_CREATING) &&
!dir->is_frozen() && !dir->is_freezing()) {
queue_split(dir, true);
}
remove = false;
continue;
}
target = mdcache->hash_into_rank_bucket(in->ino(), dir->get_frag());
}
if (target == MDS_RANK_NONE) {
if (dir->state_test(CDir::STATE_AUXSUBTREE)) {
if (dir->is_frozen() || dir->is_freezing()) {
// try again later
remove = false;
continue;
}
dout(10) << " clear auxsubtree on " << *dir << dendl;
dir->state_clear(CDir::STATE_AUXSUBTREE);
mds->mdcache->try_subtree_merge(dir);
}
} else if (target == mds->get_nodeid()) {
if (dir->state_test(CDir::STATE_AUXSUBTREE)) {
ceph_assert(dir->is_subtree_root());
} else if (dir->state_test(CDir::STATE_CREATING) ||
dir->is_frozen() || dir->is_freezing()) {
// try again later
remove = false;
continue;
} else if (!dir->is_subtree_root()) {
dir->state_set(CDir::STATE_AUXSUBTREE);
mds->mdcache->adjust_subtree_auth(dir, mds->get_nodeid());
dout(10) << " create aux subtree on " << *dir << dendl;
} else {
dout(10) << " set auxsubtree bit on " << *dir << dendl;
dir->state_set(CDir::STATE_AUXSUBTREE);
}
} else {
/* Only export a directory if it's non-empty. An empty directory will
* be sent back by the importer.
*/
if (dir->get_num_head_items() > 0) {
mds->mdcache->migrator->export_dir(dir, target);
}
remove = false;
}
}
if (remove) {
in->state_clear(CInode::STATE_QUEUEDEXPORTPIN);
q.erase(cur);
}
}
std::vector<CDir*> authsubs = mdcache->get_auth_subtrees();
bool print_auth_subtrees = true;
if (authsubs.size() > AUTH_TREES_THRESHOLD &&
!g_conf()->subsys.should_gather<ceph_subsys_mds, 25>()) {
dout(15) << "number of auth trees = " << authsubs.size() << "; not "
"printing auth trees" << dendl;
print_auth_subtrees = false;
}
for (auto &cd : authsubs) {
mds_rank_t export_pin = cd->inode->get_export_pin();
cd->inode->check_pin_policy(export_pin);
if (export_pin == MDS_RANK_EPHEMERAL_DIST) {
export_pin = mdcache->hash_into_rank_bucket(cd->ino(), cd->get_frag());
} else if (export_pin == MDS_RANK_EPHEMERAL_RAND) {
export_pin = mdcache->hash_into_rank_bucket(cd->ino());
}
if (print_auth_subtrees)
dout(25) << "auth tree " << *cd << " export_pin=" << export_pin << dendl;
if (export_pin >= 0 && export_pin != mds->get_nodeid() &&
export_pin < mds->mdsmap->get_max_mds()) {
mdcache->migrator->export_dir(cd, export_pin);
}
}
}
void MDBalancer::tick()
{
static int num_bal_times = g_conf()->mds_bal_max;
bool balance_automate = mds->mdsmap->allows_balance_automate();
auto bal_interval = g_conf().get_val<int64_t>("mds_bal_interval");
auto bal_max_until = g_conf().get_val<int64_t>("mds_bal_max_until");
time now = clock::now();
if (g_conf()->mds_bal_export_pin) {
handle_export_pins();
}
// sample?
if (chrono::duration<double>(now-last_sample).count() >
g_conf()->mds_bal_sample_interval) {
dout(15) << "tick last_sample now " << now << dendl;
last_sample = now;
}
// We can use duration_cast below, although the result is an int,
// because the values from g_conf are also integers.
// balance?
if (balance_automate
&& mds->get_nodeid() == 0
&& mds->is_active()
&& bal_interval > 0
&& chrono::duration_cast<chrono::seconds>(now - last_heartbeat).count() >= bal_interval
&& (num_bal_times || (bal_max_until >= 0 && mds->get_uptime().count() > bal_max_until))) {
last_heartbeat = now;
send_heartbeat();
num_bal_times--;
}
mds->mdcache->show_subtrees(10, true);
}
class C_Bal_SendHeartbeat : public MDSInternalContext {
public:
explicit C_Bal_SendHeartbeat(MDSRank *mds_) : MDSInternalContext(mds_) { }
void finish(int f) override {
mds->balancer->send_heartbeat();
}
};
double mds_load_t::mds_load() const
{
switch(g_conf()->mds_bal_mode) {
case 0:
return
.8 * auth.meta_load() +
.2 * all.meta_load() +
req_rate +
10.0 * queue_len;
case 1:
return req_rate + 10.0*queue_len;
case 2:
return cpu_load_avg;
}
ceph_abort();
return 0;
}
mds_load_t MDBalancer::get_load()
{
auto now = clock::now();
mds_load_t load{DecayRate()}; /* zero DecayRate! */
if (mds->mdcache->get_root()) {
auto&& ls = mds->mdcache->get_root()->get_dirfrags();
for (auto &d : ls) {
load.auth.add(d->pop_auth_subtree_nested);
load.all.add(d->pop_nested);
}
} else {
dout(20) << "no root, no load" << dendl;
}
uint64_t num_requests = mds->get_num_requests();
uint64_t num_traverse = mds->logger->get(l_mds_traverse);
uint64_t num_traverse_hit = mds->logger->get(l_mds_traverse_hit);
uint64_t cpu_time = 1;
{
string stat_path = PROCPREFIX "/proc/self/stat";
ifstream stat_file(stat_path);
if (stat_file.is_open()) {
vector<string> stat_vec(std::istream_iterator<string>{stat_file},
std::istream_iterator<string>());
if (stat_vec.size() >= 15) {
// utime + stime
cpu_time = strtoll(stat_vec[13].c_str(), nullptr, 10) +
strtoll(stat_vec[14].c_str(), nullptr, 10);
} else {
derr << "input file '" << stat_path << "' not resolvable" << dendl_impl;
}
} else {
derr << "input file '" << stat_path << "' not found" << dendl_impl;
}
}
load.queue_len = messenger->get_dispatch_queue_len();
bool update_last = true;
if (last_get_load != clock::zero() &&
now > last_get_load) {
double el = std::chrono::duration<double>(now-last_get_load).count();
if (el >= 1.0) {
if (num_requests > last_num_requests)
load.req_rate = (num_requests - last_num_requests) / el;
if (cpu_time > last_cpu_time)
load.cpu_load_avg = (cpu_time - last_cpu_time) / el;
if (num_traverse > last_num_traverse && num_traverse_hit > last_num_traverse_hit)
load.cache_hit_rate = (double)(num_traverse_hit - last_num_traverse_hit) / (num_traverse - last_num_traverse);
} else {
auto p = mds_load.find(mds->get_nodeid());
if (p != mds_load.end()) {
load.req_rate = p->second.req_rate;
load.cpu_load_avg = p->second.cpu_load_avg;
load.cache_hit_rate = p->second.cache_hit_rate;
}
if (num_requests >= last_num_requests && cpu_time >= last_cpu_time &&
num_traverse >= last_num_traverse && num_traverse_hit >= last_num_traverse_hit)
update_last = false;
}
}
if (update_last) {
last_num_requests = num_requests;
last_cpu_time = cpu_time;
last_get_load = now;
last_num_traverse = num_traverse;
last_num_traverse_hit = num_traverse_hit;
}
dout(15) << load << dendl;
return load;
}
/*
* Read synchronously from RADOS using a timeout. We cannot do daemon-local
* fallbacks (i.e. kick off async read when we are processing the map and
* check status when we get here) with the way the mds is structured.
*/
int MDBalancer::localize_balancer()
{
/* reset everything */
bool ack = false;
int r = 0;
bufferlist lua_src;
ceph::mutex lock = ceph::make_mutex("lock");
ceph::condition_variable cond;
/* we assume that balancer is in the metadata pool */
object_t oid = object_t(mds->mdsmap->get_balancer());
object_locator_t oloc(mds->get_metadata_pool());
ceph_tid_t tid = mds->objecter->read(oid, oloc, 0, 0, CEPH_NOSNAP, &lua_src, 0,
new C_SafeCond(lock, cond, &ack, &r));
dout(15) << "launched non-blocking read tid=" << tid
<< " oid=" << oid << " oloc=" << oloc << dendl;
/* timeout: if we waste half our time waiting for RADOS, then abort! */
std::cv_status ret_t = [&] {
auto bal_interval = g_conf().get_val<int64_t>("mds_bal_interval");
std::unique_lock locker{lock};
return cond.wait_for(locker, std::chrono::seconds(bal_interval / 2));
}();
/* success: store the balancer in memory and set the version. */
if (!r) {
if (ret_t == std::cv_status::timeout) {
mds->objecter->op_cancel(tid, -CEPHFS_ECANCELED);
return -CEPHFS_ETIMEDOUT;
}
bal_code.assign(lua_src.to_str());
bal_version.assign(oid.name);
dout(10) "bal_code=" << bal_code << dendl;
}
return r;
}
void MDBalancer::send_heartbeat()
{
if (mds->is_cluster_degraded()) {
dout(10) << "degraded" << dendl;
return;
}
if (!mds->mdcache->is_open()) {
dout(10) << "not open" << dendl;
mds->mdcache->wait_for_open(new C_Bal_SendHeartbeat(mds));
return;
}
if (mds->get_nodeid() == 0) {
beat_epoch++;
mds_load.clear();
}
// my load
mds_load_t load = get_load();
mds->logger->set(l_mds_load_cent, 100 * load.mds_load());
mds->logger->set(l_mds_dispatch_queue_len, load.queue_len);
auto em = mds_load.emplace(std::piecewise_construct, std::forward_as_tuple(mds->get_nodeid()), std::forward_as_tuple(load));
if (!em.second) {
em.first->second = load;
}
// import_map -- how much do i import from whom
map<mds_rank_t, float> import_map;
for (auto& im : mds->mdcache->get_auth_subtrees()) {
mds_rank_t from = im->inode->authority().first;
if (from == mds->get_nodeid()) continue;
if (im->get_inode()->is_stray()) continue;
import_map[from] += im->pop_auth_subtree.meta_load();
}
mds_import_map[ mds->get_nodeid() ] = import_map;
dout(3) << " epoch " << beat_epoch << " load " << load << dendl;
for (const auto& [rank, load] : import_map) {
dout(5) << " import_map from " << rank << " -> " << load << dendl;
}
set<mds_rank_t> up;
mds->get_mds_map()->get_up_mds_set(up);
for (const auto& r : up) {
if (r == mds->get_nodeid())
continue;
auto hb = make_message<MHeartbeat>(load, beat_epoch);
hb->get_import_map() = import_map;
mds->send_message_mds(hb, r);
}
}
void MDBalancer::handle_heartbeat(const cref_t<MHeartbeat> &m)
{
mds_rank_t who = mds_rank_t(m->get_source().num());
dout(25) << "=== got heartbeat " << m->get_beat() << " from " << m->get_source().num() << " " << m->get_load() << dendl;
if (!mds->is_active())
return;
if (!mds->mdcache->is_open()) {
dout(10) << "opening root on handle_heartbeat" << dendl;
mds->mdcache->wait_for_open(new C_MDS_RetryMessage(mds, m));
return;
}
if (mds->is_cluster_degraded()) {
dout(10) << " degraded, ignoring" << dendl;
return;
}
if (mds->get_nodeid() != 0 && m->get_beat() > beat_epoch) {
dout(10) << "receive next epoch " << m->get_beat() << " from mds." << who << " before mds0" << dendl;
beat_epoch = m->get_beat();
// clear the mds load info whose epoch is less than beat_epoch
mds_load.clear();
}
if (who == 0) {
dout(20) << " from mds0, new epoch " << m->get_beat() << dendl;
if (beat_epoch != m->get_beat()) {
beat_epoch = m->get_beat();
mds_load.clear();
}
send_heartbeat();
mds->mdcache->show_subtrees();
} else if (mds->get_nodeid() == 0) {
if (beat_epoch != m->get_beat()) {
dout(10) << " old heartbeat epoch, ignoring" << dendl;
return;
}
}
{
auto em = mds_load.emplace(std::piecewise_construct, std::forward_as_tuple(who), std::forward_as_tuple(m->get_load()));
if (!em.second) {
em.first->second = m->get_load();
}
}
mds_import_map[who] = m->get_import_map();
mds->mdsmap->update_num_mdss_in_rank_mask_bitset();
if (mds->mdsmap->get_num_mdss_in_rank_mask_bitset() > 0)
{
unsigned cluster_size = mds->get_mds_map()->get_num_in_mds();
if (mds_load.size() == cluster_size) {
// let's go!
//export_empties(); // no!
/* avoid spamming ceph -w if user does not turn mantle on */
if (mds->mdsmap->get_balancer() != "") {
int r = mantle_prep_rebalance();
if (!r) return;
mds->clog->warn() << "using old balancer; mantle failed for "
<< "balancer=" << mds->mdsmap->get_balancer()
<< " : " << cpp_strerror(r);
}
prep_rebalance(m->get_beat());
}
}
}
double MDBalancer::try_match(balance_state_t& state, mds_rank_t ex, double& maxex,
mds_rank_t im, double& maxim)
{
if (maxex <= 0 || maxim <= 0) return 0.0;
double howmuch = std::min(maxex, maxim);
dout(5) << " - mds." << ex << " exports " << howmuch << " to mds." << im << dendl;
if (ex == mds->get_nodeid())
state.targets[im] += howmuch;
state.exported[ex] += howmuch;
state.imported[im] += howmuch;
maxex -= howmuch;
maxim -= howmuch;
return howmuch;
}
void MDBalancer::queue_split(const CDir *dir, bool fast)
{
constexpr const auto &_func_ = __func__;
dout(10) << _func_ << " enqueuing " << *dir
<< " (fast=" << fast << ")" << dendl;
const dirfrag_t df = dir->dirfrag();
auto callback = [this, df](int r) {
if (split_pending.erase(df) == 0) {
// Someone beat me to it. This can happen in the fast splitting
// path, because we spawn two contexts, one with mds->timer and
// one with mds->queue_waiter. The loser can safely just drop
// out.
return;
}
if (mds->is_stopping()) {
// not a good time. This could have been (!mds->is_active())
// or at least (mds->is_stopping() || mds->is_stopped()), but
// is_stopped() is never true because an MDS respawns as soon as it's removed from the map;
// the narrow is_stopping check is to avoid potential regressions
// due to unknown coupling with other parts of the MDS (especially multiple ranks).
dout(5) << "ignoring the " << _func_ << " callback because the MDS state is '" << ceph_mds_state_name(mds->get_state()) << "'" << dendl;
return;
}
auto mdcache = mds->mdcache;
CDir *dir = mdcache->get_dirfrag(df);
if (!dir) {
dout(10) << "drop split on " << df << " because not in cache" << dendl;
return;
}
if (!dir->is_auth()) {
dout(10) << "drop split on " << df << " because non-auth" << dendl;
return;
}
// Pass on to MDCache: note that the split might still not
// happen if the checks in MDCache::can_fragment fail.
dout(10) << _func_ << " splitting " << *dir << dendl;
int bits = g_conf()->mds_bal_split_bits;
if (dir->inode->is_ephemeral_dist()) {
unsigned min_frag_bits = mdcache->get_ephemeral_dist_frag_bits();
if (df.frag.bits() + bits < min_frag_bits)
bits = min_frag_bits - df.frag.bits();
}
mdcache->split_dir(dir, bits);
};
auto ret = split_pending.insert(df);
bool is_new = ret.second;
if (fast) {
// Do the split ASAP: enqueue it in the MDSRank waiters which are
// run at the end of dispatching the current request
mds->queue_waiter(new MDSInternalContextWrapper(mds,
new LambdaContext(std::move(callback))));
} else if (is_new) {
// Set a timer to really do the split: we don't do it immediately
// so that bursts of ops on a directory have a chance to go through
// before we freeze it.
mds->timer.add_event_after(bal_fragment_interval,
new LambdaContext(std::move(callback)));
}
}
void MDBalancer::queue_merge(CDir *dir)
{
const auto frag = dir->dirfrag();
constexpr const auto &_func_ = __func__;
auto callback = [this, frag](int r) {
ceph_assert(frag.frag != frag_t());
// frag must be in this set because only one context is in flight
// for a given frag at a time (because merge_pending is checked before
// starting one), and this context is the only one that erases it.
merge_pending.erase(frag);
if (mds->is_stopping()) {
// not a good time. This could have been (!mds->is_active())
// or at least (mds->is_stopping() || mds->is_stopped()), but
// is_stopped() is never true because an MDS respawns as soon as it's removed from the map;
// the narrow is_stopping check is to avoid potential regressions
// due to unknown coupling with other parts of the MDS (especially multiple ranks).
dout(5) << "ignoring the " << _func_ << " callback because the MDS state is '" << ceph_mds_state_name(mds->get_state()) << "'" << dendl;
return;
}
auto mdcache = mds->mdcache;
CDir *dir = mdcache->get_dirfrag(frag);
if (!dir) {
dout(10) << "drop merge on " << frag << " because not in cache" << dendl;
return;
}
ceph_assert(dir->dirfrag() == frag);
if(!dir->is_auth()) {
dout(10) << "drop merge on " << *dir << " because lost auth" << dendl;
return;
}
dout(10) << "merging " << *dir << dendl;
CInode *diri = dir->get_inode();
unsigned min_frag_bits = 0;
if (diri->is_ephemeral_dist())
min_frag_bits = mdcache->get_ephemeral_dist_frag_bits();
frag_t fg = dir->get_frag();
while (fg.bits() > min_frag_bits) {
frag_t sibfg = fg.get_sibling();
auto&& [complete, sibs] = diri->get_dirfrags_under(sibfg);
if (!complete) {
dout(10) << " not all sibs under " << sibfg << " in cache (have " << sibs << ")" << dendl;
break;
}
bool all = true;
for (auto& sib : sibs) {
auto is_auth = sib->is_auth();
auto should_merge = sib->should_merge();
dout(20) << ": sib=" << *sib << ", is_auth=" << is_auth << ", should_merge="
<< should_merge << dendl;
if (!is_auth || !should_merge) {
all = false;
break;
}
}
if (!all) {
dout(10) << " not all sibs under " << sibfg << " " << sibs << " should_merge" << dendl;
break;
}
dout(10) << " all sibs under " << sibfg << " " << sibs << " should merge" << dendl;
fg = fg.parent();
}
if (fg != dir->get_frag())
mdcache->merge_dir(diri, fg);
};
if (merge_pending.count(frag) == 0) {
dout(20) << " enqueued dir " << *dir << dendl;
merge_pending.insert(frag);
mds->timer.add_event_after(bal_fragment_interval,
new LambdaContext(std::move(callback)));
} else {
dout(20) << " dir already in queue " << *dir << dendl;
}
}
void MDBalancer::prep_rebalance(int beat)
{
balance_state_t state;
if (g_conf()->mds_thrash_exports) {
//we're going to randomly export to all the mds in the cluster
set<mds_rank_t> up_mds;
mds->get_mds_map()->get_up_mds_set(up_mds);
for (const auto &rank : up_mds) {
state.targets[rank] = 0.0;
}
} else {
int cluster_size = mds->get_mds_map()->get_num_in_mds();
mds_rank_t whoami = mds->get_nodeid();
rebalance_time = clock::now();
dout(7) << "cluster loads are" << dendl;
mds->mdcache->migrator->clear_export_queue();
// rescale! turn my mds_load back into meta_load units
double load_fac = 1.0;
map<mds_rank_t, mds_load_t>::iterator m = mds_load.find(whoami);
if ((m != mds_load.end()) && (m->second.mds_load() > 0)) {
double metald = m->second.auth.meta_load();
double mdsld = m->second.mds_load();
load_fac = metald / mdsld;
dout(7) << " load_fac is " << load_fac
<< " <- " << m->second.auth << " " << metald
<< " / " << mdsld
<< dendl;
}
mds_meta_load.clear();
double total_load = 0.0;
multimap<double,mds_rank_t> load_map;
for (mds_rank_t i=mds_rank_t(0); i < mds_rank_t(cluster_size); i++) {
mds_load_t& load = mds_load.at(i);
double l = load.mds_load() * load_fac;
mds_meta_load[i] = l;
if (whoami == 0)
dout(7) << " mds." << i
<< " " << load
<< " = " << load.mds_load()
<< " ~ " << l << dendl;
if (whoami == i) my_load = l;
total_load += l;
load_map.insert(pair<double,mds_rank_t>( l, i ));
}
// target load
target_load = total_load / (double)mds->mdsmap->get_num_mdss_in_rank_mask_bitset();
dout(7) << "my load " << my_load
<< " target " << target_load
<< " total " << total_load
<< dendl;
// under or over?
for (const auto& [load, rank] : load_map) {
if (test_rank_mask(rank) &&
load < target_load * (1.0 + g_conf()->mds_bal_min_rebalance)) {
dout(7) << " mds." << rank << " is underloaded or barely overloaded." << dendl;
mds_last_epoch_under_map[rank] = beat_epoch;
}
}
int last_epoch_under = mds_last_epoch_under_map[whoami];
if (last_epoch_under == beat_epoch) {
dout(7) << " i am underloaded or barely overloaded, doing nothing." << dendl;
return;
}
// am i over long enough?
if (last_epoch_under && beat_epoch - last_epoch_under < 2) {
dout(7) << " i am overloaded, but only for " << (beat_epoch - last_epoch_under) << " epochs" << dendl;
return;
}
dout(7) << " i am sufficiently overloaded" << dendl;
// first separate exporters and importers
multimap<double,mds_rank_t> importers;
multimap<double,mds_rank_t> exporters;
set<mds_rank_t> importer_set;
set<mds_rank_t> exporter_set;
for (multimap<double,mds_rank_t>::iterator it = load_map.begin();
it != load_map.end();
++it) {
if (it->first < target_load && test_rank_mask(it->second)) {
dout(15) << " mds." << it->second << " is importer" << dendl;
importers.insert(pair<double,mds_rank_t>(it->first,it->second));
importer_set.insert(it->second);
} else {
int mds_last_epoch_under = mds_last_epoch_under_map[it->second];
if (!(mds_last_epoch_under && beat_epoch - mds_last_epoch_under < 2)) {
dout(15) << " mds." << it->second << " is exporter" << dendl;
exporters.insert(pair<double,mds_rank_t>(it->first,it->second));
exporter_set.insert(it->second);
}
}
}
// determine load transfer mapping
if (true) {
// analyze import_map; do any matches i can
dout(15) << " matching exporters to import sources" << dendl;
// big -> small exporters
for (multimap<double,mds_rank_t>::reverse_iterator ex = exporters.rbegin();
ex != exporters.rend();
++ex) {
double ex_target_load = test_rank_mask(ex->second) ? target_load : 0.0;
double maxex = get_maxex(state, ex->second, ex_target_load);
if (maxex <= .001) continue;
// check importers. for now, just in arbitrary order (no intelligent matching).
for (map<mds_rank_t, float>::iterator im = mds_import_map[ex->second].begin();
im != mds_import_map[ex->second].end();
++im) {
double maxim = get_maxim(state, im->first, target_load);
if (maxim <= .001) continue;
try_match(state, ex->second, maxex, im->first, maxim);
if (maxex <= .001) break;
}
}
}
// old way
if (beat % 2 == 1) {
dout(15) << " matching big exporters to big importers" << dendl;
// big exporters to big importers
multimap<double,mds_rank_t>::reverse_iterator ex = exporters.rbegin();
multimap<double,mds_rank_t>::iterator im = importers.begin();
while (ex != exporters.rend() &&
im != importers.end()) {
double ex_target_load = test_rank_mask(ex->second) ? target_load : 0.0;
double maxex = get_maxex(state, ex->second, ex_target_load);
double maxim = get_maxim(state, im->second, target_load);
if (maxex < .001 || maxim < .001) break;
try_match(state, ex->second, maxex, im->second, maxim);
if (maxex <= .001) ++ex;
if (maxim <= .001) ++im;
}
} else { // new way
dout(15) << " matching small exporters to big importers" << dendl;
// small exporters to big importers
multimap<double,mds_rank_t>::iterator ex = exporters.begin();
multimap<double,mds_rank_t>::iterator im = importers.begin();
while (ex != exporters.end() &&
im != importers.end()) {
double ex_target_load = test_rank_mask(ex->second) ? target_load : 0.0;
double maxex = get_maxex(state, ex->second, ex_target_load);
double maxim = get_maxim(state, im->second, target_load);
if (maxex < .001 || maxim < .001) break;
try_match(state, ex->second, maxex, im->second, maxim);
if (maxex <= .001) ++ex;
if (maxim <= .001) ++im;
}
}
}
try_rebalance(state);
}
int MDBalancer::mantle_prep_rebalance()
{
balance_state_t state;
/* refresh balancer if it has changed */
if (bal_version != mds->mdsmap->get_balancer()) {
bal_version.assign("");
int r = localize_balancer();
if (r) return r;
/* only spam the cluster log from 1 mds on version changes */
if (mds->get_nodeid() == 0)
mds->clog->info() << "mantle balancer version changed: " << bal_version;
}
/* prepare for balancing */
int cluster_size = mds->get_mds_map()->get_num_in_mds();
rebalance_time = clock::now();
mds->mdcache->migrator->clear_export_queue();
/* fill in the metrics for each mds by grabbing load struct */
vector < map<string, double> > metrics (cluster_size);
for (mds_rank_t i=mds_rank_t(0); i < mds_rank_t(cluster_size); i++) {
mds_load_t& load = mds_load.at(i);
metrics[i] = {{"auth.meta_load", load.auth.meta_load()},
{"all.meta_load", load.all.meta_load()},
{"req_rate", load.req_rate},
{"queue_len", load.queue_len},
{"cpu_load_avg", load.cpu_load_avg}};
}
/* execute the balancer */
Mantle mantle;
int ret = mantle.balance(bal_code, mds->get_nodeid(), metrics, state.targets);
dout(7) << " mantle decided that new targets=" << state.targets << dendl;
/* mantle doesn't know about cluster size, so check target len here */
if ((int) state.targets.size() != cluster_size)
return -CEPHFS_EINVAL;
else if (ret)
return ret;
try_rebalance(state);
return 0;
}
void MDBalancer::try_rebalance(balance_state_t& state)
{
if (g_conf()->mds_thrash_exports) {
dout(5) << "mds_thrash is on; not performing standard rebalance operation!"
<< dendl;
return;
}
// make a sorted list of my imports
multimap<double, CDir*> import_pop_map;
multimap<mds_rank_t, pair<CDir*, double> > import_from_map;
for (auto& dir : mds->mdcache->get_fullauth_subtrees()) {
CInode *diri = dir->get_inode();
if (diri->is_mdsdir())
continue;
if (diri->get_export_pin(false) != MDS_RANK_NONE)
continue;
if (dir->is_freezing() || dir->is_frozen())
continue; // export pbly already in progress
mds_rank_t from = diri->authority().first;
double pop = dir->pop_auth_subtree.meta_load();
if (g_conf()->mds_bal_idle_threshold > 0 &&
pop < g_conf()->mds_bal_idle_threshold &&
diri != mds->mdcache->get_root() &&
from != mds->get_nodeid()) {
dout(5) << " exporting idle (" << pop << ") import " << *dir
<< " back to mds." << from << dendl;
mds->mdcache->migrator->export_dir_nicely(dir, from);
continue;
}
dout(15) << " map: i imported " << *dir << " from " << from << dendl;
import_pop_map.insert(make_pair(pop, dir));
import_from_map.insert(make_pair(from, make_pair(dir, pop)));
}
// do my exports!
map<mds_rank_t, double> export_pop_map;
for (auto &it : state.targets) {
mds_rank_t target = it.first;
double amount = it.second;
if (amount < MIN_OFFLOAD) {
continue;
}
if (amount * 10 * state.targets.size() < target_load) {
continue;
}
dout(5) << "want to send " << amount << " to mds." << target
//<< " .. " << (*it).second << " * " << load_fac
<< " -> " << amount
<< dendl;//" .. fudge is " << fudge << dendl;
double& have = export_pop_map[target];
mds->mdcache->show_subtrees();
// search imports from target
if (import_from_map.count(target)) {
dout(7) << " aha, looking through imports from target mds." << target << dendl;
for (auto p = import_from_map.equal_range(target);
p.first != p.second; ) {
CDir *dir = p.first->second.first;
double pop = p.first->second.second;
dout(7) << "considering " << *dir << " from " << (*p.first).first << dendl;
auto plast = p.first++;
if (dir->inode->is_base())
continue;
ceph_assert(dir->inode->authority().first == target); // cuz that's how i put it in the map, dummy
if (pop <= amount-have) {
dout(7) << "reexporting " << *dir << " pop " << pop
<< " back to mds." << target << dendl;
mds->mdcache->migrator->export_dir_nicely(dir, target);
have += pop;
import_from_map.erase(plast);
for (auto q = import_pop_map.equal_range(pop);
q.first != q.second; ) {
if (q.first->second == dir) {
import_pop_map.erase(q.first);
break;
}
q.first++;
}
} else {
dout(7) << "can't reexport " << *dir << ", too big " << pop << dendl;
}
if (amount-have < MIN_OFFLOAD)
break;
}
}
}
// any other imports
for (auto &it : state.targets) {
mds_rank_t target = it.first;
double amount = it.second;
if (!export_pop_map.count(target))
continue;
double& have = export_pop_map[target];
if (amount-have < MIN_OFFLOAD)
continue;
for (auto p = import_pop_map.begin();
p != import_pop_map.end(); ) {
CDir *dir = p->second;
if (dir->inode->is_base()) {
++p;
continue;
}
double pop = p->first;
if (pop <= amount-have && pop > MIN_REEXPORT) {
dout(5) << "reexporting " << *dir << " pop " << pop
<< " to mds." << target << dendl;
have += pop;
mds->mdcache->migrator->export_dir_nicely(dir, target);
import_pop_map.erase(p++);
} else {
++p;
}
if (amount-have < MIN_OFFLOAD)
break;
}
}
set<CDir*> already_exporting;
for (auto &it : state.targets) {
mds_rank_t target = it.first;
double amount = it.second;
if (!export_pop_map.count(target))
continue;
double& have = export_pop_map[target];
if (amount-have < MIN_OFFLOAD)
continue;
// okay, search for fragments of my workload
std::vector<CDir*> exports;
for (auto p = import_pop_map.rbegin();
p != import_pop_map.rend();
++p) {
CDir *dir = p->second;
find_exports(dir, amount, &exports, have, already_exporting);
if (amount-have < MIN_OFFLOAD)
break;
}
//fudge = amount - have;
for (const auto& dir : exports) {
dout(5) << " - exporting " << dir->pop_auth_subtree
<< " " << dir->pop_auth_subtree.meta_load()
<< " to mds." << target << " " << *dir << dendl;
mds->mdcache->migrator->export_dir_nicely(dir, target);
}
}
dout(7) << "done" << dendl;
mds->mdcache->show_subtrees();
}
void MDBalancer::find_exports(CDir *dir,
double amount,
std::vector<CDir*>* exports,
double& have,
set<CDir*>& already_exporting)
{
auto now = clock::now();
auto duration = std::chrono::duration<double>(now-rebalance_time).count();
if (duration > 0.1) {
derr << " balancer runs too long" << dendl_impl;
have = amount;
return;
}
ceph_assert(dir->is_auth());
double need = amount - have;
if (need < amount * g_conf()->mds_bal_min_start)
return; // good enough!
double needmax = need * g_conf()->mds_bal_need_max;
double needmin = need * g_conf()->mds_bal_need_min;
double midchunk = need * g_conf()->mds_bal_midchunk;
double minchunk = need * g_conf()->mds_bal_minchunk;
std::vector<CDir*> bigger_rep, bigger_unrep;
multimap<double, CDir*> smaller;
double dir_pop = dir->pop_auth_subtree.meta_load();
dout(7) << "in " << dir_pop << " " << *dir << " need " << need << " (" << needmin << " - " << needmax << ")" << dendl;
double subdir_sum = 0;
for (elist<CInode*>::iterator it = dir->pop_lru_subdirs.begin_use_current();
!it.end(); ) {
CInode *in = *it;
++it;
ceph_assert(in->is_dir());
ceph_assert(in->get_parent_dir() == dir);
auto&& dfls = in->get_nested_dirfrags();
size_t num_idle_frags = 0;
for (const auto& subdir : dfls) {
if (already_exporting.count(subdir))
continue;
// we know all ancestor dirfrags up to subtree root are not freezing or frozen.
// It's more efficient to use CDir::is_{freezing,frozen}_tree_root()
if (subdir->is_frozen_dir() || subdir->is_frozen_tree_root() ||
subdir->is_freezing_dir() || subdir->is_freezing_tree_root())
continue; // can't export this right now!
// how popular?
double pop = subdir->pop_auth_subtree.meta_load();
subdir_sum += pop;
dout(15) << " subdir pop " << pop << " " << *subdir << dendl;
if (pop < minchunk) {
num_idle_frags++;
continue;
}
// lucky find?
if (pop > needmin && pop < needmax) {
exports->push_back(subdir);
already_exporting.insert(subdir);
have += pop;
return;
}
if (pop > need) {
if (subdir->is_rep())
bigger_rep.push_back(subdir);
else
bigger_unrep.push_back(subdir);
} else
smaller.insert(pair<double,CDir*>(pop, subdir));
}
if (dfls.size() == num_idle_frags)
in->item_pop_lru.remove_myself();
}
dout(15) << " sum " << subdir_sum << " / " << dir_pop << dendl;
// grab some sufficiently big small items
multimap<double,CDir*>::reverse_iterator it;
for (it = smaller.rbegin();
it != smaller.rend();
++it) {
if ((*it).first < midchunk)
break; // try later
dout(7) << " taking smaller " << *(*it).second << dendl;
exports->push_back((*it).second);
already_exporting.insert((*it).second);
have += (*it).first;
if (have > needmin)
return;
}
// apprently not enough; drill deeper into the hierarchy (if non-replicated)
for (const auto& dir : bigger_unrep) {
dout(15) << " descending into " << *dir << dendl;
find_exports(dir, amount, exports, have, already_exporting);
if (have > needmin)
return;
}
// ok fine, use smaller bits
for (;
it != smaller.rend();
++it) {
dout(7) << " taking (much) smaller " << it->first << " " << *(*it).second << dendl;
exports->push_back((*it).second);
already_exporting.insert((*it).second);
have += (*it).first;
if (have > needmin)
return;
}
// ok fine, drill into replicated dirs
for (const auto& dir : bigger_rep) {
dout(7) << " descending into replicated " << *dir << dendl;
find_exports(dir, amount, exports, have, already_exporting);
if (have > needmin)
return;
}
}
void MDBalancer::hit_inode(CInode *in, int type)
{
// hit inode
in->pop.get(type).hit();
if (in->get_parent_dn())
hit_dir(in->get_parent_dn()->get_dir(), type);
}
void MDBalancer::maybe_fragment(CDir *dir, bool hot)
{
// split/merge
if (bal_fragment_dirs && bal_fragment_interval > 0 &&
dir->is_auth() &&
!dir->inode->is_base() && // not root/mdsdir (for now at least)
!dir->inode->is_stray()) { // not straydir
// split
if (dir->should_split() || hot) {
if (split_pending.count(dir->dirfrag()) == 0) {
queue_split(dir, false);
} else {
if (dir->should_split_fast()) {
queue_split(dir, true);
} else {
dout(10) << ": fragment already enqueued to split: "
<< *dir << dendl;
}
}
}
// merge?
if (dir->should_merge() && merge_pending.count(dir->dirfrag()) == 0) {
queue_merge(dir);
}
}
}
void MDBalancer::hit_dir(CDir *dir, int type, double amount)
{
if (dir->inode->is_stray())
return;
// hit me
double v = dir->pop_me.get(type).hit(amount);
const bool hot = (v > g_conf()->mds_bal_split_rd && type == META_POP_IRD) ||
(v > g_conf()->mds_bal_split_wr && type == META_POP_IWR);
dout(20) << type << " pop is " << v << ", frag " << dir->get_frag()
<< " size " << dir->get_frag_size() << " " << dir->pop_me << dendl;
maybe_fragment(dir, hot);
// replicate?
const bool readop = (type == META_POP_IRD || type == META_POP_READDIR);
double rd_adj = 0.0;
if (readop && dir->last_popularity_sample < last_sample) {
double dir_pop = dir->pop_auth_subtree.get(type).get(); // hmm??
dir_pop += v * 10;
dir->last_popularity_sample = last_sample;
dout(20) << type << " pop " << dir_pop << " spread in " << *dir << dendl;
if (dir->is_auth() && !dir->is_ambiguous_auth() && dir->can_rep()) {
if (dir_pop >= g_conf()->mds_bal_replicate_threshold) {
// replicate
double rdp = dir->pop_me.get(META_POP_IRD).get();
rd_adj = rdp / mds->get_mds_map()->get_num_in_mds() - rdp;
rd_adj /= 2.0; // temper somewhat
dout(5) << "replicating dir " << *dir << " pop " << dir_pop << " .. rdp " << rdp << " adj " << rd_adj << dendl;
dir->dir_rep = CDir::REP_ALL;
mds->mdcache->send_dir_updates(dir, true);
// fixme this should adjust the whole pop hierarchy
dir->pop_me.get(META_POP_IRD).adjust(rd_adj);
dir->pop_auth_subtree.get(META_POP_IRD).adjust(rd_adj);
}
if (dir->ino() != 1 &&
dir->is_rep() &&
dir_pop < g_conf()->mds_bal_unreplicate_threshold) {
// unreplicate
dout(5) << "unreplicating dir " << *dir << " pop " << dir_pop << dendl;
dir->dir_rep = CDir::REP_NONE;
mds->mdcache->send_dir_updates(dir);
}
}
}
// adjust ancestors
bool hit_subtree = dir->is_auth(); // current auth subtree (if any)
bool hit_subtree_nested = dir->is_auth(); // all nested auth subtrees
while (true) {
CDir *pdir = dir->inode->get_parent_dir();
dir->pop_nested.get(type).hit(amount);
if (rd_adj != 0.0)
dir->pop_nested.get(META_POP_IRD).adjust(rd_adj);
if (hit_subtree) {
dir->pop_auth_subtree.get(type).hit(amount);
if (rd_adj != 0.0)
dir->pop_auth_subtree.get(META_POP_IRD).adjust(rd_adj);
if (dir->is_subtree_root())
hit_subtree = false; // end of auth domain, stop hitting auth counters.
else if (pdir)
pdir->pop_lru_subdirs.push_front(&dir->get_inode()->item_pop_lru);
}
if (hit_subtree_nested) {
dir->pop_auth_subtree_nested.get(type).hit(amount);
if (rd_adj != 0.0)
dir->pop_auth_subtree_nested.get(META_POP_IRD).adjust(rd_adj);
}
if (!pdir) break;
dir = pdir;
}
}
/*
* subtract off an exported chunk.
* this excludes *dir itself (encode_export_dir should have take care of that)
* we _just_ do the parents' nested counters.
*
* NOTE: call me _after_ forcing *dir into a subtree root,
* but _before_ doing the encode_export_dirs.
*/
void MDBalancer::subtract_export(CDir *dir)
{
dirfrag_load_vec_t subload = dir->pop_auth_subtree;
while (true) {
dir = dir->inode->get_parent_dir();
if (!dir) break;
dir->pop_nested.sub(subload);
dir->pop_auth_subtree_nested.sub(subload);
}
}
void MDBalancer::add_import(CDir *dir)
{
dirfrag_load_vec_t subload = dir->pop_auth_subtree;
while (true) {
dir = dir->inode->get_parent_dir();
if (!dir) break;
dir->pop_nested.add(subload);
dir->pop_auth_subtree_nested.add(subload);
}
}
void MDBalancer::adjust_pop_for_rename(CDir *pdir, CDir *dir, bool inc)
{
bool adjust_subtree_nest = dir->is_auth();
bool adjust_subtree = adjust_subtree_nest && !dir->is_subtree_root();
CDir *cur = dir;
while (true) {
if (inc) {
pdir->pop_nested.add(dir->pop_nested);
if (adjust_subtree) {
pdir->pop_auth_subtree.add(dir->pop_auth_subtree);
pdir->pop_lru_subdirs.push_front(&cur->get_inode()->item_pop_lru);
}
if (adjust_subtree_nest)
pdir->pop_auth_subtree_nested.add(dir->pop_auth_subtree_nested);
} else {
pdir->pop_nested.sub(dir->pop_nested);
if (adjust_subtree)
pdir->pop_auth_subtree.sub(dir->pop_auth_subtree);
if (adjust_subtree_nest)
pdir->pop_auth_subtree_nested.sub(dir->pop_auth_subtree_nested);
}
if (pdir->is_subtree_root())
adjust_subtree = false;
cur = pdir;
pdir = pdir->inode->get_parent_dir();
if (!pdir) break;
}
}
void MDBalancer::handle_mds_failure(mds_rank_t who)
{
if (0 == who) {
mds_last_epoch_under_map.clear();
}
}
int MDBalancer::dump_loads(Formatter *f, int64_t depth) const
{
std::deque<pair<CDir*, int>> dfs;
std::deque<CDir*> dfs_root;
if (mds->mdcache->get_root()) {
mds->mdcache->get_root()->get_dirfrags(dfs_root);
while (!dfs_root.empty()) {
CDir *dir = dfs_root.front();
dfs_root.pop_front();
dfs.push_back(make_pair(dir, 0));
}
} else {
dout(10) << "no root" << dendl;
}
f->open_object_section("loads");
f->open_array_section("dirfrags");
while (!dfs.empty()) {
auto [dir, cur_depth] = dfs.front();
dfs.pop_front();
f->open_object_section("dir");
dir->dump_load(f);
f->close_section();
//limit output dirfrags depth
if (depth >= 0 && (cur_depth + 1) > depth) {
continue;
}
for (auto it = dir->begin(); it != dir->end(); ++it) {
CInode *in = it->second->get_linkage()->get_inode();
if (!in || !in->is_dir())
continue;
auto&& ls = in->get_dirfrags();
for (const auto& subdir : ls) {
if (subdir->pop_nested.meta_load() < .001)
continue;
dfs.push_back(make_pair(subdir, cur_depth+1));
}
}
}
f->close_section(); // dirfrags array
f->open_object_section("mds_load");
{
auto dump_mds_load = [f](const mds_load_t& load) {
f->dump_float("request_rate", load.req_rate);
f->dump_float("cache_hit_rate", load.cache_hit_rate);
f->dump_float("queue_length", load.queue_len);
f->dump_float("cpu_load", load.cpu_load_avg);
f->dump_float("mds_load", load.mds_load());
f->open_object_section("auth_dirfrags");
load.auth.dump(f);
f->close_section();
f->open_object_section("all_dirfrags");
load.all.dump(f);
f->close_section();
};
for (const auto& [rank, load] : mds_load) {
CachedStackStringStream css;
*css << "mds." << rank;
f->open_object_section(css->strv());
dump_mds_load(load);
f->close_section();
}
}
f->close_section(); // mds_load
f->open_object_section("mds_meta_load");
for (auto& [rank, mload] : mds_meta_load) {
CachedStackStringStream css;
*css << "mds." << rank;
f->dump_float(css->strv(), mload);
}
f->close_section(); // mds_meta_load
f->open_object_section("mds_import_map");
for (auto& [rank, imports] : mds_import_map) {
{
CachedStackStringStream css;
*css << "mds." << rank;
f->open_array_section(css->strv());
}
for (auto& [rank_from, mload] : imports) {
f->open_object_section("from");
CachedStackStringStream css;
*css << "mds." << rank_from;
f->dump_float(css->strv(), mload);
f->close_section();
}
f->close_section(); // mds.? array
}
f->close_section(); // mds_import_map
f->close_section(); // loads
return 0;
}
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