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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include "tools/rbd_mirror/MirrorStatusUpdater.h"
#include "include/Context.h"
#include "include/stringify.h"
#include "common/debug.h"
#include "common/errno.h"
#include "common/Timer.h"
#include "librbd/ImageCtx.h"
#include "librbd/Utils.h"
#include "librbd/asio/ContextWQ.h"
#include "tools/rbd_mirror/MirrorStatusWatcher.h"
#include "tools/rbd_mirror/Threads.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_rbd_mirror
#undef dout_prefix
#define dout_prefix *_dout << "rbd::mirror::MirrorStatusUpdater " << this \
<< " " << __func__ << ": "
namespace rbd {
namespace mirror {
static const double UPDATE_INTERVAL_SECONDS = 30;
static const uint32_t MAX_UPDATES_PER_OP = 100;
using librbd::util::create_context_callback;
using librbd::util::create_rados_callback;
template <typename I>
MirrorStatusUpdater<I>::MirrorStatusUpdater(
librados::IoCtx& io_ctx, Threads<I> *threads,
const std::string& local_mirror_uuid)
: m_io_ctx(io_ctx), m_threads(threads),
m_local_mirror_uuid(local_mirror_uuid),
m_lock(ceph::make_mutex("rbd::mirror::MirrorStatusUpdater " +
stringify(m_io_ctx.get_id()))) {
dout(10) << "local_mirror_uuid=" << local_mirror_uuid << ", "
<< "pool_id=" << m_io_ctx.get_id() << dendl;
}
template <typename I>
MirrorStatusUpdater<I>::~MirrorStatusUpdater() {
ceph_assert(!m_initialized);
delete m_mirror_status_watcher;
}
template <typename I>
void MirrorStatusUpdater<I>::init(Context* on_finish) {
dout(10) << dendl;
ceph_assert(!m_initialized);
m_initialized = true;
{
std::lock_guard timer_locker{m_threads->timer_lock};
schedule_timer_task();
}
init_mirror_status_watcher(on_finish);
}
template <typename I>
void MirrorStatusUpdater<I>::init_mirror_status_watcher(Context* on_finish) {
dout(10) << dendl;
auto ctx = new LambdaContext([this, on_finish](int r) {
handle_init_mirror_status_watcher(r, on_finish);
});
m_mirror_status_watcher = MirrorStatusWatcher<I>::create(
m_io_ctx, m_threads->work_queue);
m_mirror_status_watcher->init(ctx);
}
template <typename I>
void MirrorStatusUpdater<I>::handle_init_mirror_status_watcher(
int r, Context* on_finish) {
dout(10) << "r=" << r << dendl;
if (r < 0) {
derr << "failed to init mirror status watcher: " << cpp_strerror(r)
<< dendl;
delete m_mirror_status_watcher;
m_mirror_status_watcher = nullptr;
on_finish = new LambdaContext([r, on_finish](int) {
on_finish->complete(r);
});
shut_down(on_finish);
return;
}
m_threads->work_queue->queue(on_finish, 0);
}
template <typename I>
void MirrorStatusUpdater<I>::shut_down(Context* on_finish) {
dout(10) << dendl;
{
std::lock_guard timer_locker{m_threads->timer_lock};
ceph_assert(m_timer_task != nullptr);
m_threads->timer->cancel_event(m_timer_task);
}
{
std::unique_lock locker(m_lock);
ceph_assert(m_initialized);
m_initialized = false;
}
shut_down_mirror_status_watcher(on_finish);
}
template <typename I>
void MirrorStatusUpdater<I>::shut_down_mirror_status_watcher(
Context* on_finish) {
if (m_mirror_status_watcher == nullptr) {
finalize_shutdown(0, on_finish);
return;
}
dout(10) << dendl;
auto ctx = new LambdaContext([this, on_finish](int r) {
handle_shut_down_mirror_status_watcher(r, on_finish);
});
m_mirror_status_watcher->shut_down(ctx);
}
template <typename I>
void MirrorStatusUpdater<I>::handle_shut_down_mirror_status_watcher(
int r, Context* on_finish) {
dout(10) << "r=" << r << dendl;
if (r < 0) {
derr << "failed to shut down mirror status watcher: " << cpp_strerror(r)
<< dendl;
}
finalize_shutdown(r, on_finish);
}
template <typename I>
void MirrorStatusUpdater<I>::finalize_shutdown(int r, Context* on_finish) {
dout(10) << dendl;
{
std::unique_lock locker(m_lock);
if (m_update_in_progress) {
if (r < 0) {
on_finish = new LambdaContext([r, on_finish](int) {
on_finish->complete(r);
});
}
m_update_on_finish_ctxs.push_back(on_finish);
return;
}
}
m_threads->work_queue->queue(on_finish, r);
}
template <typename I>
bool MirrorStatusUpdater<I>::exists(const std::string& global_image_id) {
dout(15) << "global_image_id=" << global_image_id << dendl;
std::unique_lock locker(m_lock);
return (m_global_image_status.count(global_image_id) > 0);
}
template <typename I>
void MirrorStatusUpdater<I>::set_mirror_image_status(
const std::string& global_image_id,
const cls::rbd::MirrorImageSiteStatus& mirror_image_site_status,
bool immediate_update) {
dout(15) << "global_image_id=" << global_image_id << ", "
<< "mirror_image_site_status=" << mirror_image_site_status << dendl;
std::unique_lock locker(m_lock);
m_global_image_status[global_image_id] = mirror_image_site_status;
if (immediate_update) {
m_update_global_image_ids.insert(global_image_id);
queue_update_task(std::move(locker));
}
}
template <typename I>
void MirrorStatusUpdater<I>::remove_refresh_mirror_image_status(
const std::string& global_image_id,
Context* on_finish) {
if (try_remove_mirror_image_status(global_image_id, false, false,
on_finish)) {
m_threads->work_queue->queue(on_finish, 0);
}
}
template <typename I>
void MirrorStatusUpdater<I>::remove_mirror_image_status(
const std::string& global_image_id, bool immediate_update,
Context* on_finish) {
if (try_remove_mirror_image_status(global_image_id, true, immediate_update,
on_finish)) {
m_threads->work_queue->queue(on_finish, 0);
}
}
template <typename I>
bool MirrorStatusUpdater<I>::try_remove_mirror_image_status(
const std::string& global_image_id, bool queue_update,
bool immediate_update, Context* on_finish) {
dout(15) << "global_image_id=" << global_image_id << ", "
<< "queue_update=" << queue_update << ", "
<< "immediate_update=" << immediate_update << dendl;
std::unique_lock locker(m_lock);
if ((m_update_in_flight &&
m_updating_global_image_ids.count(global_image_id) > 0) ||
((m_update_in_progress || m_update_requested) &&
m_update_global_image_ids.count(global_image_id) > 0)) {
// if update is scheduled/in-progress, wait for it to complete
on_finish = new LambdaContext(
[this, global_image_id, queue_update, immediate_update,
on_finish](int r) {
if (try_remove_mirror_image_status(global_image_id, queue_update,
immediate_update, on_finish)) {
on_finish->complete(0);
}
});
m_update_on_finish_ctxs.push_back(on_finish);
return false;
}
m_global_image_status.erase(global_image_id);
if (queue_update) {
m_update_global_image_ids.insert(global_image_id);
if (immediate_update) {
queue_update_task(std::move(locker));
}
}
return true;
}
template <typename I>
void MirrorStatusUpdater<I>::schedule_timer_task() {
dout(10) << dendl;
ceph_assert(ceph_mutex_is_locked(m_threads->timer_lock));
ceph_assert(m_timer_task == nullptr);
m_timer_task = create_context_callback<
MirrorStatusUpdater<I>,
&MirrorStatusUpdater<I>::handle_timer_task>(this);
m_threads->timer->add_event_after(UPDATE_INTERVAL_SECONDS, m_timer_task);
}
template <typename I>
void MirrorStatusUpdater<I>::handle_timer_task(int r) {
dout(10) << dendl;
ceph_assert(ceph_mutex_is_locked(m_threads->timer_lock));
ceph_assert(m_timer_task != nullptr);
m_timer_task = nullptr;
schedule_timer_task();
std::unique_lock locker(m_lock);
for (auto& pair : m_global_image_status) {
m_update_global_image_ids.insert(pair.first);
}
queue_update_task(std::move(locker));
}
template <typename I>
void MirrorStatusUpdater<I>::queue_update_task(
std::unique_lock<ceph::mutex>&& locker) {
if (!m_initialized) {
return;
}
if (m_update_in_progress) {
if (m_update_in_flight) {
dout(10) << "deferring update due to in-flight ops" << dendl;
m_update_requested = true;
}
return;
}
m_update_in_progress = true;
ceph_assert(!m_update_in_flight);
ceph_assert(!m_update_requested);
locker.unlock();
dout(10) << dendl;
auto ctx = create_context_callback<
MirrorStatusUpdater<I>,
&MirrorStatusUpdater<I>::update_task>(this);
m_threads->work_queue->queue(ctx);
}
template <typename I>
void MirrorStatusUpdater<I>::update_task(int r) {
dout(10) << dendl;
std::unique_lock locker(m_lock);
ceph_assert(m_update_in_progress);
ceph_assert(!m_update_in_flight);
m_update_in_flight = true;
std::swap(m_updating_global_image_ids, m_update_global_image_ids);
auto updating_global_image_ids = m_updating_global_image_ids;
auto global_image_status = m_global_image_status;
locker.unlock();
Context* ctx = create_context_callback<
MirrorStatusUpdater<I>,
&MirrorStatusUpdater<I>::handle_update_task>(this);
if (updating_global_image_ids.empty()) {
ctx->complete(0);
return;
}
auto gather = new C_Gather(g_ceph_context, ctx);
auto it = updating_global_image_ids.begin();
while (it != updating_global_image_ids.end()) {
librados::ObjectWriteOperation op;
uint32_t op_count = 0;
while (it != updating_global_image_ids.end() &&
op_count < MAX_UPDATES_PER_OP) {
auto& global_image_id = *it;
++it;
auto status_it = global_image_status.find(global_image_id);
if (status_it == global_image_status.end()) {
librbd::cls_client::mirror_image_status_remove(&op, global_image_id);
++op_count;
continue;
}
status_it->second.mirror_uuid = m_local_mirror_uuid;
librbd::cls_client::mirror_image_status_set(&op, global_image_id,
status_it->second);
++op_count;
}
auto aio_comp = create_rados_callback(gather->new_sub());
int r = m_io_ctx.aio_operate(RBD_MIRRORING, aio_comp, &op);
ceph_assert(r == 0);
aio_comp->release();
}
gather->activate();
}
template <typename I>
void MirrorStatusUpdater<I>::handle_update_task(int r) {
dout(10) << dendl;
if (r < 0) {
derr << "failed to update mirror image statuses: " << cpp_strerror(r)
<< dendl;
}
std::unique_lock locker(m_lock);
Contexts on_finish_ctxs;
std::swap(on_finish_ctxs, m_update_on_finish_ctxs);
ceph_assert(m_update_in_progress);
m_update_in_progress = false;
ceph_assert(m_update_in_flight);
m_update_in_flight = false;
m_updating_global_image_ids.clear();
if (m_update_requested) {
m_update_requested = false;
queue_update_task(std::move(locker));
} else {
locker.unlock();
}
for (auto on_finish : on_finish_ctxs) {
on_finish->complete(0);
}
}
} // namespace mirror
} // namespace rbd
template class rbd::mirror::MirrorStatusUpdater<librbd::ImageCtx>;
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