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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) 2011 New Dream Network
* Copyright (C) 2017 OVH
*
* 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/ceph_context.h"
#include <mutex>
#include <iostream>
#include <pthread.h>
#include <boost/algorithm/string.hpp>
#include "include/common_fwd.h"
#include "include/mempool.h"
#include "include/stringify.h"
#include "common/admin_socket.h"
#include "common/code_environment.h"
#include "common/ceph_mutex.h"
#include "common/debug.h"
#include "common/config.h"
#include "common/ceph_crypto.h"
#include "common/lockdep.h"
#include "common/HeartbeatMap.h"
#include "common/errno.h"
#include "common/Graylog.h"
#include "log/Log.h"
#include "auth/Crypto.h"
#include "include/str_list.h"
#include "common/config.h"
#include "common/config_obs.h"
#include "common/PluginRegistry.h"
#include "common/valgrind.h"
#include "include/spinlock.h"
#if !(defined(WITH_SEASTAR) && !defined(WITH_ALIEN))
#include "mon/MonMap.h"
#endif
// for CINIT_FLAGS
#include "common/common_init.h"
#include <iostream>
#include <pthread.h>
using namespace std::literals;
using ceph::bufferlist;
using ceph::HeartbeatMap;
#if defined(WITH_SEASTAR) && !defined(WITH_ALIEN)
namespace crimson::common {
CephContext::CephContext()
: _conf{crimson::common::local_conf()},
_perf_counters_collection{crimson::common::local_perf_coll()},
_crypto_random{std::make_unique<CryptoRandom>()}
{}
// define the dtor in .cc as CryptoRandom is an incomplete type in the header
CephContext::~CephContext()
{}
uint32_t CephContext::get_module_type() const
{
return CEPH_ENTITY_TYPE_OSD;
}
CryptoRandom* CephContext::random() const
{
return _crypto_random.get();
}
CephContext* CephContext::get()
{
++nref;
return this;
}
void CephContext::put()
{
if (--nref == 0) {
delete this;
}
}
PerfCountersCollectionImpl* CephContext::get_perfcounters_collection()
{
return _perf_counters_collection.get_perf_collection();
}
}
#else // WITH_SEASTAR
namespace {
class LockdepObs : public md_config_obs_t {
public:
explicit LockdepObs(CephContext *cct)
: m_cct(cct), m_registered(false), lock(ceph::make_mutex("lock_dep_obs")) {
}
~LockdepObs() override {
if (m_registered) {
lockdep_unregister_ceph_context(m_cct);
}
}
const char** get_tracked_conf_keys() const override {
static const char *KEYS[] = {"lockdep", NULL};
return KEYS;
}
void handle_conf_change(const ConfigProxy& conf,
const std::set <std::string> &changed) override {
std::unique_lock locker(lock);
if (conf->lockdep && !m_registered) {
lockdep_register_ceph_context(m_cct);
m_registered = true;
} else if (!conf->lockdep && m_registered) {
lockdep_unregister_ceph_context(m_cct);
m_registered = false;
}
}
private:
CephContext *m_cct;
bool m_registered;
ceph::mutex lock;
};
class MempoolObs : public md_config_obs_t,
public AdminSocketHook {
CephContext *cct;
ceph::mutex lock;
public:
explicit MempoolObs(CephContext *cct)
: cct(cct), lock(ceph::make_mutex("mem_pool_obs")) {
cct->_conf.add_observer(this);
int r = cct->get_admin_socket()->register_command(
"dump_mempools",
this,
"get mempool stats");
ceph_assert(r == 0);
}
~MempoolObs() override {
cct->_conf.remove_observer(this);
cct->get_admin_socket()->unregister_commands(this);
}
// md_config_obs_t
const char** get_tracked_conf_keys() const override {
static const char *KEYS[] = {
"mempool_debug",
NULL
};
return KEYS;
}
void handle_conf_change(const ConfigProxy& conf,
const std::set <std::string> &changed) override {
std::unique_lock locker(lock);
if (changed.count("mempool_debug")) {
mempool::set_debug_mode(cct->_conf->mempool_debug);
}
}
// AdminSocketHook
int call(std::string_view command, const cmdmap_t& cmdmap,
ceph::Formatter *f,
std::ostream& errss,
bufferlist& out) override {
if (command == "dump_mempools") {
f->open_object_section("mempools");
mempool::dump(f);
f->close_section();
return 0;
}
return -ENOSYS;
}
};
} // anonymous namespace
namespace ceph::common {
class CephContextServiceThread : public Thread
{
public:
explicit CephContextServiceThread(CephContext *cct)
: _reopen_logs(false), _exit_thread(false), _cct(cct)
{
}
~CephContextServiceThread() override {}
void *entry() override
{
while (1) {
std::unique_lock l(_lock);
if (_exit_thread) {
break;
}
if (_cct->_conf->heartbeat_interval) {
auto interval = ceph::make_timespan(_cct->_conf->heartbeat_interval);
_cond.wait_for(l, interval);
} else
_cond.wait(l);
if (_exit_thread) {
break;
}
if (_reopen_logs) {
_cct->_log->reopen_log_file();
_reopen_logs = false;
}
_cct->_heartbeat_map->check_touch_file();
// refresh the perf coutners
_cct->_refresh_perf_values();
}
return NULL;
}
void reopen_logs()
{
std::lock_guard l(_lock);
_reopen_logs = true;
_cond.notify_all();
}
void exit_thread()
{
std::lock_guard l(_lock);
_exit_thread = true;
_cond.notify_all();
}
private:
ceph::mutex _lock = ceph::make_mutex("CephContextServiceThread::_lock");
ceph::condition_variable _cond;
bool _reopen_logs;
bool _exit_thread;
CephContext *_cct;
};
}
/**
* observe logging config changes
*
* The logging subsystem sits below most of the ceph code, including
* the config subsystem, to keep it simple and self-contained. Feed
* logging-related config changes to the log.
*/
class LogObs : public md_config_obs_t {
ceph::logging::Log *log;
ceph::mutex lock;
public:
explicit LogObs(ceph::logging::Log *l)
: log(l), lock(ceph::make_mutex("log_obs")) {
}
const char** get_tracked_conf_keys() const override {
static const char *KEYS[] = {
"log_file",
"log_max_new",
"log_max_recent",
"log_to_file",
"log_to_syslog",
"err_to_syslog",
"log_stderr_prefix",
"log_to_stderr",
"err_to_stderr",
"log_to_graylog",
"err_to_graylog",
"log_graylog_host",
"log_graylog_port",
"log_coarse_timestamps",
"fsid",
"host",
NULL
};
return KEYS;
}
void handle_conf_change(const ConfigProxy& conf,
const std::set <std::string> &changed) override {
std::unique_lock locker(lock);
// stderr
if (changed.count("log_to_stderr") || changed.count("err_to_stderr")) {
int l = conf->log_to_stderr ? 99 : (conf->err_to_stderr ? -1 : -2);
log->set_stderr_level(l, l);
}
// syslog
if (changed.count("log_to_syslog")) {
int l = conf->log_to_syslog ? 99 : (conf->err_to_syslog ? -1 : -2);
log->set_syslog_level(l, l);
}
// file
if (changed.count("log_file") ||
changed.count("log_to_file")) {
if (conf->log_to_file) {
log->set_log_file(conf->log_file);
} else {
log->set_log_file({});
}
log->reopen_log_file();
}
if (changed.count("log_stderr_prefix")) {
log->set_log_stderr_prefix(conf.get_val<std::string>("log_stderr_prefix"));
}
if (changed.count("log_max_new")) {
log->set_max_new(conf->log_max_new);
}
if (changed.count("log_max_recent")) {
log->set_max_recent(conf->log_max_recent);
}
// graylog
if (changed.count("log_to_graylog") || changed.count("err_to_graylog")) {
int l = conf->log_to_graylog ? 99 : (conf->err_to_graylog ? -1 : -2);
log->set_graylog_level(l, l);
if (conf->log_to_graylog || conf->err_to_graylog) {
log->start_graylog();
} else if (! (conf->log_to_graylog && conf->err_to_graylog)) {
log->stop_graylog();
}
}
if (log->graylog() && (changed.count("log_graylog_host") || changed.count("log_graylog_port"))) {
log->graylog()->set_destination(conf->log_graylog_host, conf->log_graylog_port);
}
if (changed.find("log_coarse_timestamps") != changed.end()) {
log->set_coarse_timestamps(conf.get_val<bool>("log_coarse_timestamps"));
}
// metadata
if (log->graylog() && changed.count("host")) {
log->graylog()->set_hostname(conf->host);
}
if (log->graylog() && changed.count("fsid")) {
log->graylog()->set_fsid(conf.get_val<uuid_d>("fsid"));
}
}
};
namespace ceph::common {
// cct config watcher
class CephContextObs : public md_config_obs_t {
CephContext *cct;
public:
explicit CephContextObs(CephContext *cct) : cct(cct) {}
const char** get_tracked_conf_keys() const override {
static const char *KEYS[] = {
"enable_experimental_unrecoverable_data_corrupting_features",
"crush_location",
"container_image", // just so we don't hear complaints about it!
NULL
};
return KEYS;
}
void handle_conf_change(const ConfigProxy& conf,
const std::set <std::string> &changed) override {
if (changed.count(
"enable_experimental_unrecoverable_data_corrupting_features")) {
std::lock_guard lg(cct->_feature_lock);
cct->_experimental_features.clear();
auto add_experimental_feature = [this] (auto feature) {
cct->_experimental_features.emplace(std::string{feature});
};
for_each_substr(conf->enable_experimental_unrecoverable_data_corrupting_features,
";,= \t", add_experimental_feature);
if (getenv("CEPH_DEV") == NULL) {
if (!cct->_experimental_features.empty()) {
if (cct->_experimental_features.count("*")) {
lderr(cct) << "WARNING: all dangerous and experimental features are enabled." << dendl;
} else {
lderr(cct) << "WARNING: the following dangerous and experimental features are enabled: "
<< cct->_experimental_features << dendl;
}
}
}
}
if (changed.count("crush_location")) {
cct->crush_location.update_from_conf();
}
}
};
// perfcounter hooks
class CephContextHook : public AdminSocketHook {
CephContext *m_cct;
public:
explicit CephContextHook(CephContext *cct) : m_cct(cct) {}
int call(std::string_view command, const cmdmap_t& cmdmap,
Formatter *f,
std::ostream& errss,
bufferlist& out) override {
try {
return m_cct->do_command(command, cmdmap, f, errss, &out);
} catch (const bad_cmd_get& e) {
return -EINVAL;
}
}
};
bool CephContext::check_experimental_feature_enabled(const std::string& feat)
{
std::stringstream message;
bool enabled = check_experimental_feature_enabled(feat, &message);
lderr(this) << message.str() << dendl;
return enabled;
}
bool CephContext::check_experimental_feature_enabled(const std::string& feat,
std::ostream *message)
{
std::unique_lock<ceph::spinlock> lg(_feature_lock);
bool enabled = (_experimental_features.count(feat) ||
_experimental_features.count("*"));
if (enabled) {
(*message) << "WARNING: experimental feature '" << feat << "' is enabled\n";
(*message) << "Please be aware that this feature is experimental, untested,\n";
(*message) << "unsupported, and may result in data corruption, data loss,\n";
(*message) << "and/or irreparable damage to your cluster. Do not use\n";
(*message) << "feature with important data.\n";
} else {
(*message) << "*** experimental feature '" << feat << "' is not enabled ***\n";
(*message) << "This feature is marked as experimental, which means it\n";
(*message) << " - is untested\n";
(*message) << " - is unsupported\n";
(*message) << " - may corrupt your data\n";
(*message) << " - may break your cluster is an unrecoverable fashion\n";
(*message) << "To enable this feature, add this to your ceph.conf:\n";
(*message) << " enable experimental unrecoverable data corrupting features = " << feat << "\n";
}
return enabled;
}
int CephContext::do_command(std::string_view command, const cmdmap_t& cmdmap,
Formatter *f,
std::ostream& ss,
bufferlist *out)
{
try {
return _do_command(command, cmdmap, f, ss, out);
} catch (const bad_cmd_get& e) {
ss << e.what();
return -EINVAL;
}
}
int CephContext::_do_command(
std::string_view command, const cmdmap_t& cmdmap,
Formatter *f,
std::ostream& ss,
bufferlist *out)
{
int r = 0;
lgeneric_dout(this, 1) << "do_command '" << command << "' '" << cmdmap << "'"
<< dendl;
ceph_assert_always(!(command == "assert" && _conf->debug_asok_assert_abort));
if (command == "abort") {
if (_conf->debug_asok_assert_abort) {
ceph_abort();
} else {
return -EPERM;
}
}
if (command == "leak_some_memory") {
char *foo = new char[1234];
(void)foo;
}
else if (command == "perfcounters_dump" || command == "1" ||
command == "perf dump") {
std::string logger;
std::string counter;
cmd_getval(cmdmap, "logger", logger);
cmd_getval(cmdmap, "counter", counter);
_perf_counters_collection->dump_formatted(f, false, logger, counter);
}
else if (command == "perfcounters_schema" || command == "2" ||
command == "perf schema") {
_perf_counters_collection->dump_formatted(f, true);
}
else if (command == "perf histogram dump") {
std::string logger;
std::string counter;
cmd_getval(cmdmap, "logger", logger);
cmd_getval(cmdmap, "counter", counter);
_perf_counters_collection->dump_formatted_histograms(f, false, logger,
counter);
}
else if (command == "perf histogram schema") {
_perf_counters_collection->dump_formatted_histograms(f, true);
}
else if (command == "perf reset") {
std::string var;
std::string section(command);
f->open_object_section(section.c_str());
if (!cmd_getval(cmdmap, "var", var)) {
f->dump_string("error", "syntax error: 'perf reset <var>'");
} else {
if(!_perf_counters_collection->reset(var))
f->dump_stream("error") << "Not find: " << var;
else
f->dump_string("success", std::string(command) + ' ' + var);
}
f->close_section();
}
else {
std::string section(command);
boost::replace_all(section, " ", "_");
f->open_object_section(section.c_str());
if (command == "config show") {
_conf.show_config(f);
}
else if (command == "config unset") {
std::string var;
if (!(cmd_getval(cmdmap, "var", var))) {
r = -EINVAL;
} else {
r = _conf.rm_val(var.c_str());
if (r < 0 && r != -ENOENT) {
ss << "error unsetting '" << var << "': "
<< cpp_strerror(r);
} else {
_conf.apply_changes(&ss);
r = 0;
}
}
}
else if (command == "config set") {
std::string var;
std::vector<std::string> val;
if (!(cmd_getval(cmdmap, "var", var)) ||
!(cmd_getval(cmdmap, "val", val))) {
r = -EINVAL;
} else {
// val may be multiple words
auto valstr = str_join(val, " ");
r = _conf.set_val(var.c_str(), valstr.c_str());
if (r < 0) {
ss << "error setting '" << var << "' to '" << valstr << "': "
<< cpp_strerror(r);
} else {
std::stringstream ss;
_conf.apply_changes(&ss);
f->dump_string("success", ss.str());
}
}
} else if (command == "config get") {
std::string var;
if (!cmd_getval(cmdmap, "var", var)) {
r = -EINVAL;
} else {
char buf[4096];
// FIPS zeroization audit 20191115: this memset is not security related.
memset(buf, 0, sizeof(buf));
char *tmp = buf;
r = _conf.get_val(var.c_str(), &tmp, sizeof(buf));
if (r < 0) {
ss << "error getting '" << var << "': " << cpp_strerror(r);
} else {
f->dump_string(var.c_str(), buf);
}
}
} else if (command == "config help") {
std::string var;
if (cmd_getval(cmdmap, "var", var)) {
// Output a single one
std::string key = ConfFile::normalize_key_name(var);
auto schema = _conf.get_schema(key);
if (!schema) {
ss << "Setting not found: '" << key << "'";
r = -ENOENT;
} else {
f->dump_object("option", *schema);
}
} else {
// Output all
f->open_array_section("options");
for (const auto &option : ceph_options) {
f->dump_object("option", option);
}
f->close_section();
}
} else if (command == "config diff") {
f->open_object_section("diff");
_conf.diff(f);
f->close_section(); // unknown
} else if (command == "config diff get") {
std::string setting;
f->open_object_section("diff");
_conf.diff(f, setting);
f->close_section(); // unknown
}
else if (command == "injectargs") {
std::vector<std::string> argsvec;
cmd_getval(cmdmap, "injected_args", argsvec);
if (!argsvec.empty()) {
auto args = joinify<std::string>(argsvec.begin(), argsvec.end(), " ");
r = _conf.injectargs(args, &ss);
}
}
else if (command == "log flush") {
_log->flush();
}
else if (command == "log dump") {
_log->dump_recent();
}
else if (command == "log reopen") {
_log->reopen_log_file();
}
else {
ceph_abort_msg("registered under wrong command?");
}
f->close_section();
}
lgeneric_dout(this, 1) << "do_command '" << command << "' '" << cmdmap
<< "' result is " << out->length() << " bytes" << dendl;
return r;
}
CephContext::CephContext(uint32_t module_type_,
enum code_environment_t code_env,
int init_flags_)
: nref(1),
_conf{code_env == CODE_ENVIRONMENT_DAEMON},
_log(NULL),
_module_type(module_type_),
_init_flags(init_flags_),
_set_uid(0),
_set_gid(0),
_set_uid_string(),
_set_gid_string(),
_crypto_inited(0),
_service_thread(NULL),
_log_obs(NULL),
_admin_socket(NULL),
_perf_counters_collection(NULL),
_perf_counters_conf_obs(NULL),
_heartbeat_map(NULL),
_crypto_none(NULL),
_crypto_aes(NULL),
_plugin_registry(NULL),
_lockdep_obs(NULL),
crush_location(this)
{
_log = new ceph::logging::Log(&_conf->subsys);
_log_obs = new LogObs(_log);
_conf.add_observer(_log_obs);
_cct_obs = new CephContextObs(this);
_conf.add_observer(_cct_obs);
_lockdep_obs = new LockdepObs(this);
_conf.add_observer(_lockdep_obs);
_perf_counters_collection = new PerfCountersCollection(this);
_admin_socket = new AdminSocket(this);
_heartbeat_map = new HeartbeatMap(this);
_plugin_registry = new PluginRegistry(this);
_admin_hook = new CephContextHook(this);
_admin_socket->register_command("assert", _admin_hook, "");
_admin_socket->register_command("abort", _admin_hook, "");
_admin_socket->register_command("leak_some_memory", _admin_hook, "");
_admin_socket->register_command("perfcounters_dump", _admin_hook, "");
_admin_socket->register_command("1", _admin_hook, "");
_admin_socket->register_command("perf dump name=logger,type=CephString,req=false name=counter,type=CephString,req=false", _admin_hook, "dump perfcounters value");
_admin_socket->register_command("perfcounters_schema", _admin_hook, "");
_admin_socket->register_command("perf histogram dump name=logger,type=CephString,req=false name=counter,type=CephString,req=false", _admin_hook, "dump perf histogram values");
_admin_socket->register_command("2", _admin_hook, "");
_admin_socket->register_command("perf schema", _admin_hook, "dump perfcounters schema");
_admin_socket->register_command("perf histogram schema", _admin_hook, "dump perf histogram schema");
_admin_socket->register_command("perf reset name=var,type=CephString", _admin_hook, "perf reset <name>: perf reset all or one perfcounter name");
_admin_socket->register_command("config show", _admin_hook, "dump current config settings");
_admin_socket->register_command("config help name=var,type=CephString,req=false", _admin_hook, "get config setting schema and descriptions");
_admin_socket->register_command("config set name=var,type=CephString name=val,type=CephString,n=N", _admin_hook, "config set <field> <val> [<val> ...]: set a config variable");
_admin_socket->register_command("config unset name=var,type=CephString", _admin_hook, "config unset <field>: unset a config variable");
_admin_socket->register_command("config get name=var,type=CephString", _admin_hook, "config get <field>: get the config value");
_admin_socket->register_command(
"config diff", _admin_hook,
"dump diff of current config and default config");
_admin_socket->register_command(
"config diff get name=var,type=CephString", _admin_hook,
"dump diff get <field>: dump diff of current and default config setting <field>");
_admin_socket->register_command("injectargs name=injected_args,type=CephString,n=N", _admin_hook, "inject configuration arguments into running daemon"),
_admin_socket->register_command("log flush", _admin_hook, "flush log entries to log file");
_admin_socket->register_command("log dump", _admin_hook, "dump recent log entries to log file");
_admin_socket->register_command("log reopen", _admin_hook, "reopen log file");
_crypto_none = CryptoHandler::create(CEPH_CRYPTO_NONE);
_crypto_aes = CryptoHandler::create(CEPH_CRYPTO_AES);
_crypto_random.reset(new CryptoRandom());
lookup_or_create_singleton_object<MempoolObs>("mempool_obs", false, this);
}
CephContext::~CephContext()
{
associated_objs.clear();
join_service_thread();
if (_cct_perf) {
_perf_counters_collection->remove(_cct_perf);
delete _cct_perf;
_cct_perf = NULL;
}
delete _plugin_registry;
_admin_socket->unregister_commands(_admin_hook);
delete _admin_hook;
delete _admin_socket;
delete _heartbeat_map;
delete _perf_counters_collection;
_perf_counters_collection = NULL;
delete _perf_counters_conf_obs;
_perf_counters_conf_obs = NULL;
_conf.remove_observer(_log_obs);
delete _log_obs;
_log_obs = NULL;
_conf.remove_observer(_cct_obs);
delete _cct_obs;
_cct_obs = NULL;
_conf.remove_observer(_lockdep_obs);
delete _lockdep_obs;
_lockdep_obs = NULL;
_log->stop();
delete _log;
_log = NULL;
delete _crypto_none;
delete _crypto_aes;
if (_crypto_inited > 0) {
ceph_assert(_crypto_inited == 1); // or else someone explicitly did
// init but not shutdown
shutdown_crypto();
}
}
void CephContext::put() {
if (--nref == 0) {
ANNOTATE_HAPPENS_AFTER(&nref);
ANNOTATE_HAPPENS_BEFORE_FORGET_ALL(&nref);
if (g_ceph_context == this)
g_ceph_context = nullptr;
delete this;
} else {
ANNOTATE_HAPPENS_BEFORE(&nref);
}
}
void CephContext::init_crypto()
{
if (_crypto_inited++ == 0) {
TOPNSPC::crypto::init();
}
}
void CephContext::shutdown_crypto()
{
if (--_crypto_inited == 0) {
TOPNSPC::crypto::shutdown(g_code_env == CODE_ENVIRONMENT_LIBRARY);
}
}
void CephContext::start_service_thread()
{
{
std::lock_guard lg(_service_thread_lock);
if (_service_thread) {
return;
}
_service_thread = new CephContextServiceThread(this);
_service_thread->create("service");
}
if (!(get_init_flags() & CINIT_FLAG_NO_CCT_PERF_COUNTERS))
_enable_perf_counter();
// make logs flush on_exit()
if (_conf->log_flush_on_exit)
_log->set_flush_on_exit();
// Trigger callbacks on any config observers that were waiting for
// it to become safe to start threads.
_conf.set_safe_to_start_threads();
_conf.call_all_observers();
// start admin socket
if (_conf->admin_socket.length())
_admin_socket->init(_conf->admin_socket);
}
void CephContext::reopen_logs()
{
std::lock_guard lg(_service_thread_lock);
if (_service_thread)
_service_thread->reopen_logs();
}
void CephContext::join_service_thread()
{
std::unique_lock<ceph::spinlock> lg(_service_thread_lock);
CephContextServiceThread *thread = _service_thread;
if (!thread) {
return;
}
_service_thread = NULL;
lg.unlock();
thread->exit_thread();
thread->join();
delete thread;
if (!(get_init_flags() & CINIT_FLAG_NO_CCT_PERF_COUNTERS))
_disable_perf_counter();
}
uint32_t CephContext::get_module_type() const
{
return _module_type;
}
void CephContext::set_init_flags(int flags)
{
_init_flags = flags;
}
int CephContext::get_init_flags() const
{
return _init_flags;
}
PerfCountersCollection *CephContext::get_perfcounters_collection()
{
return _perf_counters_collection;
}
void CephContext::_enable_perf_counter()
{
assert(!_cct_perf);
PerfCountersBuilder plb(this, "cct", l_cct_first, l_cct_last);
plb.add_u64(l_cct_total_workers, "total_workers", "Total workers");
plb.add_u64(l_cct_unhealthy_workers, "unhealthy_workers", "Unhealthy workers");
_cct_perf = plb.create_perf_counters();
_perf_counters_collection->add(_cct_perf);
assert(_mempool_perf_names.empty());
assert(_mempool_perf_descriptions.empty());
_mempool_perf_names.reserve(mempool::num_pools * 2);
_mempool_perf_descriptions.reserve(mempool::num_pools * 2);
for (unsigned i = 0; i < mempool::num_pools; ++i) {
std::string n = mempool::get_pool_name(mempool::pool_index_t(i));
_mempool_perf_names.push_back(n + "_bytes"s);
_mempool_perf_descriptions.push_back(
"mempool "s + n + " total bytes");
_mempool_perf_names.push_back(n + "_items"s);
_mempool_perf_descriptions.push_back(
"mempool "s + n + " total items"s);
}
PerfCountersBuilder plb2(this, "mempool", l_mempool_first,
l_mempool_first + 1 + 2*mempool::num_pools);
unsigned l = l_mempool_first + 1;
for (unsigned i = 0; i < mempool::num_pools; ++i) {
plb2.add_u64(l++, _mempool_perf_names[i*2].c_str(),
_mempool_perf_descriptions[i*2].c_str());
plb2.add_u64(l++, _mempool_perf_names[i*2+1].c_str(),
_mempool_perf_descriptions[i*2+1].c_str());
}
_mempool_perf = plb2.create_perf_counters();
_perf_counters_collection->add(_mempool_perf);
}
void CephContext::_disable_perf_counter()
{
if (!_cct_perf) {
return;
}
_perf_counters_collection->remove(_cct_perf);
delete _cct_perf;
_cct_perf = nullptr;
_perf_counters_collection->remove(_mempool_perf);
delete _mempool_perf;
_mempool_perf = nullptr;
_mempool_perf_names.clear();
_mempool_perf_descriptions.clear();
}
void CephContext::_refresh_perf_values()
{
if (_cct_perf) {
_cct_perf->set(l_cct_total_workers, _heartbeat_map->get_total_workers());
_cct_perf->set(l_cct_unhealthy_workers, _heartbeat_map->get_unhealthy_workers());
}
unsigned l = l_mempool_first + 1;
for (unsigned i = 0; i < mempool::num_pools; ++i) {
mempool::pool_t& p = mempool::get_pool(mempool::pool_index_t(i));
_mempool_perf->set(l++, p.allocated_bytes());
_mempool_perf->set(l++, p.allocated_items());
}
}
AdminSocket *CephContext::get_admin_socket()
{
return _admin_socket;
}
CryptoHandler *CephContext::get_crypto_handler(int type)
{
switch (type) {
case CEPH_CRYPTO_NONE:
return _crypto_none;
case CEPH_CRYPTO_AES:
return _crypto_aes;
default:
return NULL;
}
}
void CephContext::notify_pre_fork()
{
{
std::lock_guard lg(_fork_watchers_lock);
for (auto &&t : _fork_watchers) {
t->handle_pre_fork();
}
}
{
// note: we don't hold a lock here, but we assume we are idle at
// fork time, which happens during process init and startup.
auto i = associated_objs.begin();
while (i != associated_objs.end()) {
if (associated_objs_drop_on_fork.count(i->first.first)) {
i = associated_objs.erase(i);
} else {
++i;
}
}
associated_objs_drop_on_fork.clear();
}
}
void CephContext::notify_post_fork()
{
ceph::spin_unlock(&_fork_watchers_lock);
for (auto &&t : _fork_watchers)
t->handle_post_fork();
}
void CephContext::set_mon_addrs(const MonMap& mm) {
std::vector<entity_addrvec_t> mon_addrs;
for (auto& i : mm.mon_info) {
mon_addrs.push_back(i.second.public_addrs);
}
set_mon_addrs(mon_addrs);
}
}
#endif // WITH_SEASTAR
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