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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
*
* 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.
*
*/
#ifndef CEPH_CEPHCONTEXT_H
#define CEPH_CEPHCONTEXT_H
#include <atomic>
#include <map>
#include <memory>
#include <mutex>
#include <set>
#include <string>
#include <string_view>
#include <typeinfo>
#include <typeindex>
#include <boost/intrusive_ptr.hpp>
#include "include/any.h"
#include "include/common_fwd.h"
#include "include/compat.h"
#include "common/cmdparse.h"
#include "common/code_environment.h"
#include "msg/msg_types.h"
#if defined(WITH_SEASTAR) && !defined(WITH_ALIEN)
#include "crimson/common/config_proxy.h"
#include "crimson/common/perf_counters_collection.h"
#else
#include "common/config_proxy.h"
#include "include/spinlock.h"
#include "common/perf_counters_collection.h"
#endif
#include "crush/CrushLocation.h"
class AdminSocket;
class CryptoHandler;
class CryptoRandom;
class MonMap;
namespace ceph::common {
class CephContextServiceThread;
class CephContextObs;
class CephContextHook;
}
namespace ceph {
class PluginRegistry;
class HeartbeatMap;
namespace logging {
class Log;
}
}
#if defined(WITH_SEASTAR) && !defined(WITH_ALIEN)
namespace crimson::common {
class CephContext {
public:
CephContext();
CephContext(uint32_t,
code_environment_t=CODE_ENVIRONMENT_UTILITY,
int = 0)
: CephContext{}
{}
CephContext(CephContext&&) = default;
~CephContext();
uint32_t get_module_type() const;
bool check_experimental_feature_enabled(const std::string& feature) {
// everything crimson is experimental...
return true;
}
CryptoRandom* random() const;
PerfCountersCollectionImpl* get_perfcounters_collection();
crimson::common::ConfigProxy& _conf;
crimson::common::PerfCountersCollection& _perf_counters_collection;
CephContext* get();
void put();
private:
std::unique_ptr<CryptoRandom> _crypto_random;
unsigned nref;
};
}
#else
#ifdef __cplusplus
namespace ceph::common {
#endif
/* A CephContext represents the context held by a single library user.
* There can be multiple CephContexts in the same process.
*
* For daemons and utility programs, there will be only one CephContext. The
* CephContext contains the configuration, the dout object, and anything else
* that you might want to pass to libcommon with every function call.
*/
class CephContext {
public:
CephContext(uint32_t module_type_,
enum code_environment_t code_env=CODE_ENVIRONMENT_UTILITY,
int init_flags_ = 0);
CephContext(const CephContext&) = delete;
CephContext& operator =(const CephContext&) = delete;
CephContext(CephContext&&) = delete;
CephContext& operator =(CephContext&&) = delete;
bool _finished = false;
~CephContext();
// ref count!
private:
std::atomic<unsigned> nref;
public:
CephContext *get() {
++nref;
return this;
}
void put();
ConfigProxy _conf;
ceph::logging::Log *_log;
/* init ceph::crypto */
void init_crypto();
/// shutdown crypto (should match init_crypto calls)
void shutdown_crypto();
/* Start the Ceph Context's service thread */
void start_service_thread();
/* Reopen the log files */
void reopen_logs();
/* Get the module type (client, mon, osd, mds, etc.) */
uint32_t get_module_type() const;
// this is here only for testing purposes!
void _set_module_type(uint32_t t) {
_module_type = t;
}
void set_init_flags(int flags);
int get_init_flags() const;
/* Get the PerfCountersCollection of this CephContext */
PerfCountersCollection *get_perfcounters_collection();
ceph::HeartbeatMap *get_heartbeat_map() {
return _heartbeat_map;
}
/**
* Get the admin socket associated with this CephContext.
*
* Currently there is always an admin socket object,
* so this will never return NULL.
*
* @return the admin socket
*/
AdminSocket *get_admin_socket();
/**
* process an admin socket command
*/
int do_command(std::string_view command, const cmdmap_t& cmdmap,
Formatter *f,
std::ostream& errss,
ceph::bufferlist *out);
int _do_command(std::string_view command, const cmdmap_t& cmdmap,
Formatter *f,
std::ostream& errss,
ceph::bufferlist *out);
static constexpr std::size_t largest_singleton = 8 * 72;
template<typename T, typename... Args>
T& lookup_or_create_singleton_object(std::string_view name,
bool drop_on_fork,
Args&&... args) {
static_assert(sizeof(T) <= largest_singleton,
"Please increase largest singleton.");
std::lock_guard lg(associated_objs_lock);
std::type_index type = typeid(T);
auto i = associated_objs.find(std::make_pair(name, type));
if (i == associated_objs.cend()) {
if (drop_on_fork) {
associated_objs_drop_on_fork.insert(std::string(name));
}
i = associated_objs.emplace_hint(
i,
std::piecewise_construct,
std::forward_as_tuple(name, type),
std::forward_as_tuple(std::in_place_type<T>,
std::forward<Args>(args)...));
}
return ceph::any_cast<T&>(i->second);
}
/**
* get a crypto handler
*/
CryptoHandler *get_crypto_handler(int type);
CryptoRandom* random() const { return _crypto_random.get(); }
/// check if experimental feature is enable, and emit appropriate warnings
bool check_experimental_feature_enabled(const std::string& feature);
bool check_experimental_feature_enabled(const std::string& feature,
std::ostream *message);
ceph::PluginRegistry *get_plugin_registry() {
return _plugin_registry;
}
void set_uid_gid(uid_t u, gid_t g) {
_set_uid = u;
_set_gid = g;
}
uid_t get_set_uid() const {
return _set_uid;
}
gid_t get_set_gid() const {
return _set_gid;
}
void set_uid_gid_strings(const std::string &u, const std::string &g) {
_set_uid_string = u;
_set_gid_string = g;
}
std::string get_set_uid_string() const {
return _set_uid_string;
}
std::string get_set_gid_string() const {
return _set_gid_string;
}
class ForkWatcher {
public:
virtual ~ForkWatcher() {}
virtual void handle_pre_fork() = 0;
virtual void handle_post_fork() = 0;
};
void register_fork_watcher(ForkWatcher *w) {
std::lock_guard lg(_fork_watchers_lock);
_fork_watchers.push_back(w);
}
void notify_pre_fork();
void notify_post_fork();
/**
* update CephContext with a copy of the passed in MonMap mon addrs
*
* @param mm MonMap to extract and update mon addrs
*/
void set_mon_addrs(const MonMap& mm);
void set_mon_addrs(const std::vector<entity_addrvec_t>& in) {
auto ptr = std::make_shared<std::vector<entity_addrvec_t>>(in);
atomic_store_explicit(&_mon_addrs, std::move(ptr), std::memory_order_relaxed);
}
std::shared_ptr<std::vector<entity_addrvec_t>> get_mon_addrs() const {
auto ptr = atomic_load_explicit(&_mon_addrs, std::memory_order_relaxed);
return ptr;
}
private:
/* Stop and join the Ceph Context's service thread */
void join_service_thread();
uint32_t _module_type;
int _init_flags;
uid_t _set_uid; ///< uid to drop privs to
gid_t _set_gid; ///< gid to drop privs to
std::string _set_uid_string;
std::string _set_gid_string;
int _crypto_inited;
std::shared_ptr<std::vector<entity_addrvec_t>> _mon_addrs;
/* libcommon service thread.
* SIGHUP wakes this thread, which then reopens logfiles */
friend class CephContextServiceThread;
CephContextServiceThread *_service_thread;
using md_config_obs_t = ceph::md_config_obs_impl<ConfigProxy>;
md_config_obs_t *_log_obs;
/* The admin socket associated with this context */
AdminSocket *_admin_socket;
/* lock which protects service thread creation, destruction, etc. */
ceph::spinlock _service_thread_lock;
/* The collection of profiling loggers associated with this context */
PerfCountersCollection *_perf_counters_collection;
md_config_obs_t *_perf_counters_conf_obs;
CephContextHook *_admin_hook;
ceph::HeartbeatMap *_heartbeat_map;
ceph::spinlock associated_objs_lock;
struct associated_objs_cmp {
using is_transparent = std::true_type;
template<typename T, typename U>
bool operator ()(const std::pair<T, std::type_index>& l,
const std::pair<U, std::type_index>& r) const noexcept {
return ((l.first < r.first) ||
(l.first == r.first && l.second < r.second));
}
};
std::map<std::pair<std::string, std::type_index>,
ceph::immobile_any<largest_singleton>,
associated_objs_cmp> associated_objs;
std::set<std::string> associated_objs_drop_on_fork;
ceph::spinlock _fork_watchers_lock;
std::vector<ForkWatcher*> _fork_watchers;
// crypto
CryptoHandler *_crypto_none;
CryptoHandler *_crypto_aes;
std::unique_ptr<CryptoRandom> _crypto_random;
// experimental
CephContextObs *_cct_obs;
ceph::spinlock _feature_lock;
std::set<std::string> _experimental_features;
ceph::PluginRegistry* _plugin_registry;
md_config_obs_t *_lockdep_obs;
public:
TOPNSPC::crush::CrushLocation crush_location;
private:
enum {
l_cct_first,
l_cct_total_workers,
l_cct_unhealthy_workers,
l_cct_last
};
enum {
l_mempool_first = 873222,
l_mempool_bytes,
l_mempool_items,
l_mempool_last
};
PerfCounters *_cct_perf = nullptr;
PerfCounters* _mempool_perf = nullptr;
std::vector<std::string> _mempool_perf_names, _mempool_perf_descriptions;
/**
* Enable the performance counters.
*/
void _enable_perf_counter();
/**
* Disable the performance counter.
*/
void _disable_perf_counter();
/**
* Refresh perf counter values.
*/
void _refresh_perf_values();
friend class CephContextObs;
};
#ifdef __cplusplus
}
#endif
#endif // WITH_SEASTAR
#if !(defined(WITH_SEASTAR) && !defined(WITH_ALIEN)) && defined(__cplusplus)
namespace ceph::common {
inline void intrusive_ptr_add_ref(CephContext* cct)
{
cct->get();
}
inline void intrusive_ptr_release(CephContext* cct)
{
cct->put();
}
}
#endif // !(defined(WITH_SEASTAR) && !defined(WITH_ALIEN)) && defined(__cplusplus)
#endif
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