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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#ifndef CEPH_RBD_MIRROR_POOL_REPLAYER_H
#define CEPH_RBD_MIRROR_POOL_REPLAYER_H
#include "common/Cond.h"
#include "common/ceph_mutex.h"
#include "include/rados/librados.hpp"
#include "librbd/Utils.h"
#include "librbd/asio/ContextWQ.h"
#include "tools/rbd_mirror/LeaderWatcher.h"
#include "tools/rbd_mirror/NamespaceReplayer.h"
#include "tools/rbd_mirror/Throttler.h"
#include "tools/rbd_mirror/Types.h"
#include "tools/rbd_mirror/leader_watcher/Types.h"
#include "tools/rbd_mirror/service_daemon/Types.h"
#include <map>
#include <memory>
#include <string>
#include <vector>
class AdminSocketHook;
namespace journal { struct CacheManagerHandler; }
namespace librbd { class ImageCtx; }
namespace rbd {
namespace mirror {
template <typename> class RemotePoolPoller;
namespace remote_pool_poller { struct Listener; }
struct PoolMetaCache;
template <typename> class ServiceDaemon;
template <typename> struct Threads;
/**
* Controls mirroring for a single remote cluster.
*/
template <typename ImageCtxT = librbd::ImageCtx>
class PoolReplayer {
public:
PoolReplayer(Threads<ImageCtxT> *threads,
ServiceDaemon<ImageCtxT> *service_daemon,
journal::CacheManagerHandler *cache_manager_handler,
PoolMetaCache* pool_meta_cache,
int64_t local_pool_id, const PeerSpec &peer,
const std::vector<const char*> &args);
~PoolReplayer();
PoolReplayer(const PoolReplayer&) = delete;
PoolReplayer& operator=(const PoolReplayer&) = delete;
bool is_blocklisted() const;
bool is_leader() const;
bool is_running() const;
void init(const std::string& site_name);
void shut_down();
void run();
void print_status(Formatter *f);
void start();
void stop(bool manual);
void restart();
void flush();
void release_leader();
void reopen_logs();
private:
/**
* @verbatim
*
* <start>
* |
* v
* INIT
* |
* v
* <follower> <---------------------\
* . |
* . (leader acquired) |
* v |
* NOTIFY_NAMESPACE_WATCHERS NOTIFY_NAMESPACE_WATCHERS
* | ^
* v .
* <leader> .
* . .
* . (leader lost / shut down) .
* . . . . . . . . . . . . . . . .
*
* @endverbatim
*/
struct RemotePoolPollerListener;
int init_rados(const std::string &cluster_name,
const std::string &client_name,
const std::string &mon_host,
const std::string &key,
const std::string &description, RadosRef *rados_ref,
bool strip_cluster_overrides);
void update_namespace_replayers();
int list_mirroring_namespaces(std::set<std::string> *namespaces);
void namespace_replayer_acquire_leader(const std::string &name,
Context *on_finish);
void handle_post_acquire_leader(Context *on_finish);
void handle_pre_release_leader(Context *on_finish);
void handle_update_leader(const std::string &leader_instance_id);
void handle_instances_added(const std::vector<std::string> &instance_ids);
void handle_instances_removed(const std::vector<std::string> &instance_ids);
// sync version, executed in the caller thread
template <typename L>
void with_namespace_replayers(L &&callback) {
std::lock_guard locker{m_lock};
if (m_namespace_replayers_locked) {
ceph_assert(m_on_namespace_replayers_unlocked == nullptr);
C_SaferCond cond;
m_on_namespace_replayers_unlocked = &cond;
m_lock.unlock();
cond.wait();
m_lock.lock();
} else {
m_namespace_replayers_locked = true;
}
ceph_assert(m_namespace_replayers_locked);
callback(); // may temporary release the lock
ceph_assert(m_namespace_replayers_locked);
if (m_on_namespace_replayers_unlocked == nullptr) {
m_namespace_replayers_locked = false;
return;
}
m_threads->work_queue->queue(m_on_namespace_replayers_unlocked);
m_on_namespace_replayers_unlocked = nullptr;
}
// async version
template <typename L>
void with_namespace_replayers(L &&callback, Context *on_finish) {
std::lock_guard locker{m_lock};
on_finish = librbd::util::create_async_context_callback(
m_threads->work_queue, new LambdaContext(
[this, on_finish](int r) {
{
std::lock_guard locker{m_lock};
ceph_assert(m_namespace_replayers_locked);
m_namespace_replayers_locked = false;
if (m_on_namespace_replayers_unlocked != nullptr) {
m_namespace_replayers_locked = true;
m_threads->work_queue->queue(m_on_namespace_replayers_unlocked);
m_on_namespace_replayers_unlocked = nullptr;
}
}
on_finish->complete(r);
}));
auto on_lock = new LambdaContext(
[this, callback, on_finish](int) {
std::lock_guard locker{m_lock};
ceph_assert(m_namespace_replayers_locked);
callback(on_finish);
});
if (m_namespace_replayers_locked) {
ceph_assert(m_on_namespace_replayers_unlocked == nullptr);
m_on_namespace_replayers_unlocked = on_lock;
return;
}
m_namespace_replayers_locked = true;
m_threads->work_queue->queue(on_lock);
}
void handle_remote_pool_meta_updated(const RemotePoolMeta& remote_pool_meta);
Threads<ImageCtxT> *m_threads;
ServiceDaemon<ImageCtxT> *m_service_daemon;
journal::CacheManagerHandler *m_cache_manager_handler;
PoolMetaCache* m_pool_meta_cache;
int64_t m_local_pool_id = -1;
PeerSpec m_peer;
std::vector<const char*> m_args;
mutable ceph::mutex m_lock;
ceph::condition_variable m_cond;
std::string m_site_name;
bool m_stopping = false;
bool m_manual_stop = false;
bool m_blocklisted = false;
RadosRef m_local_rados;
RadosRef m_remote_rados;
librados::IoCtx m_local_io_ctx;
librados::IoCtx m_remote_io_ctx;
std::string m_local_mirror_uuid;
RemotePoolMeta m_remote_pool_meta;
std::unique_ptr<remote_pool_poller::Listener> m_remote_pool_poller_listener;
std::unique_ptr<RemotePoolPoller<ImageCtxT>> m_remote_pool_poller;
std::unique_ptr<NamespaceReplayer<ImageCtxT>> m_default_namespace_replayer;
std::map<std::string, NamespaceReplayer<ImageCtxT> *> m_namespace_replayers;
std::string m_asok_hook_name;
AdminSocketHook *m_asok_hook = nullptr;
service_daemon::CalloutId m_callout_id = service_daemon::CALLOUT_ID_NONE;
bool m_leader = false;
bool m_namespace_replayers_locked = false;
Context *m_on_namespace_replayers_unlocked = nullptr;
class PoolReplayerThread : public Thread {
PoolReplayer *m_pool_replayer;
public:
PoolReplayerThread(PoolReplayer *pool_replayer)
: m_pool_replayer(pool_replayer) {
}
void *entry() override {
m_pool_replayer->run();
return 0;
}
} m_pool_replayer_thread;
class LeaderListener : public leader_watcher::Listener {
public:
LeaderListener(PoolReplayer *pool_replayer)
: m_pool_replayer(pool_replayer) {
}
protected:
void post_acquire_handler(Context *on_finish) override {
m_pool_replayer->handle_post_acquire_leader(on_finish);
}
void pre_release_handler(Context *on_finish) override {
m_pool_replayer->handle_pre_release_leader(on_finish);
}
void update_leader_handler(
const std::string &leader_instance_id) override {
m_pool_replayer->handle_update_leader(leader_instance_id);
}
void handle_instances_added(const InstanceIds& instance_ids) override {
m_pool_replayer->handle_instances_added(instance_ids);
}
void handle_instances_removed(const InstanceIds& instance_ids) override {
m_pool_replayer->handle_instances_removed(instance_ids);
}
private:
PoolReplayer *m_pool_replayer;
} m_leader_listener;
std::unique_ptr<LeaderWatcher<ImageCtxT>> m_leader_watcher;
std::unique_ptr<Throttler<ImageCtxT>> m_image_sync_throttler;
std::unique_ptr<Throttler<ImageCtxT>> m_image_deletion_throttler;
};
} // namespace mirror
} // namespace rbd
extern template class rbd::mirror::PoolReplayer<librbd::ImageCtx>;
#endif // CEPH_RBD_MIRROR_POOL_REPLAYER_H
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