// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #include "librbd/Watcher.h" #include "librbd/watcher/RewatchRequest.h" #include "librbd/Utils.h" #include "librbd/TaskFinisher.h" #include "include/encoding.h" #include "common/errno.h" #include "common/WorkQueue.h" #include // re-include our assert to clobber the system one; fix dout: #include "include/ceph_assert.h" #define dout_subsys ceph_subsys_rbd namespace librbd { using namespace watcher; using util::create_context_callback; using util::create_rados_callback; using std::string; namespace { struct C_UnwatchAndFlush : public Context { librados::Rados rados; Context *on_finish; bool flushing = false; int ret_val = 0; C_UnwatchAndFlush(librados::IoCtx &io_ctx, Context *on_finish) : rados(io_ctx), on_finish(on_finish) { } void complete(int r) override { if (ret_val == 0 && r < 0) { ret_val = r; } if (!flushing) { flushing = true; librados::AioCompletion *aio_comp = create_rados_callback(this); r = rados.aio_watch_flush(aio_comp); ceph_assert(r == 0); aio_comp->release(); return; } // ensure our reference to the RadosClient is released prior // to completing the callback to avoid racing an explicit // librados shutdown Context *ctx = on_finish; r = ret_val; delete this; ctx->complete(r); } void finish(int r) override { } }; } // anonymous namespace #undef dout_prefix #define dout_prefix *_dout << "librbd::Watcher::C_NotifyAck " << this << " " \ << __func__ << ": " Watcher::C_NotifyAck::C_NotifyAck(Watcher *watcher, uint64_t notify_id, uint64_t handle) : watcher(watcher), cct(watcher->m_cct), notify_id(notify_id), handle(handle) { ldout(cct, 10) << "id=" << notify_id << ", " << "handle=" << handle << dendl; } void Watcher::C_NotifyAck::finish(int r) { ldout(cct, 10) << "r=" << r << dendl; ceph_assert(r == 0); watcher->acknowledge_notify(notify_id, handle, out); } #undef dout_prefix #define dout_prefix *_dout << "librbd::Watcher: " << this << " " << __func__ \ << ": " Watcher::Watcher(librados::IoCtx& ioctx, ContextWQ *work_queue, const string& oid) : m_ioctx(ioctx), m_work_queue(work_queue), m_oid(oid), m_cct(reinterpret_cast(ioctx.cct())), m_watch_lock(util::unique_lock_name("librbd::Watcher::m_watch_lock", this)), m_watch_handle(0), m_notifier(work_queue, ioctx, oid), m_watch_state(WATCH_STATE_IDLE), m_watch_ctx(*this) { } Watcher::~Watcher() { RWLock::RLocker l(m_watch_lock); ceph_assert(is_unregistered(m_watch_lock)); } void Watcher::register_watch(Context *on_finish) { ldout(m_cct, 10) << dendl; RWLock::WLocker watch_locker(m_watch_lock); ceph_assert(is_unregistered(m_watch_lock)); m_watch_state = WATCH_STATE_REGISTERING; m_watch_blacklisted = false; librados::AioCompletion *aio_comp = create_rados_callback( new C_RegisterWatch(this, on_finish)); int r = m_ioctx.aio_watch(m_oid, aio_comp, &m_watch_handle, &m_watch_ctx); ceph_assert(r == 0); aio_comp->release(); } void Watcher::handle_register_watch(int r, Context *on_finish) { ldout(m_cct, 10) << "r=" << r << dendl; bool watch_error = false; Context *unregister_watch_ctx = nullptr; { RWLock::WLocker watch_locker(m_watch_lock); ceph_assert(m_watch_state == WATCH_STATE_REGISTERING); m_watch_state = WATCH_STATE_IDLE; if (r < 0) { lderr(m_cct) << "failed to register watch: " << cpp_strerror(r) << dendl; m_watch_handle = 0; } if (m_unregister_watch_ctx != nullptr) { std::swap(unregister_watch_ctx, m_unregister_watch_ctx); } else if (r == 0 && m_watch_error) { lderr(m_cct) << "re-registering watch after error" << dendl; m_watch_state = WATCH_STATE_REWATCHING; watch_error = true; } else { m_watch_blacklisted = (r == -EBLACKLISTED); } } on_finish->complete(r); if (unregister_watch_ctx != nullptr) { unregister_watch_ctx->complete(0); } else if (watch_error) { rewatch(); } } void Watcher::unregister_watch(Context *on_finish) { ldout(m_cct, 10) << dendl; { RWLock::WLocker watch_locker(m_watch_lock); if (m_watch_state != WATCH_STATE_IDLE) { ldout(m_cct, 10) << "delaying unregister until register completed" << dendl; ceph_assert(m_unregister_watch_ctx == nullptr); m_unregister_watch_ctx = new FunctionContext([this, on_finish](int r) { unregister_watch(on_finish); }); return; } else if (is_registered(m_watch_lock)) { librados::AioCompletion *aio_comp = create_rados_callback( new C_UnwatchAndFlush(m_ioctx, on_finish)); int r = m_ioctx.aio_unwatch(m_watch_handle, aio_comp); ceph_assert(r == 0); aio_comp->release(); m_watch_handle = 0; m_watch_blacklisted = false; return; } } on_finish->complete(0); } bool Watcher::notifications_blocked() const { RWLock::RLocker locker(m_watch_lock); bool blocked = (m_blocked_count > 0); ldout(m_cct, 5) << "blocked=" << blocked << dendl; return blocked; } void Watcher::block_notifies(Context *on_finish) { { RWLock::WLocker locker(m_watch_lock); ++m_blocked_count; ldout(m_cct, 5) << "blocked_count=" << m_blocked_count << dendl; } m_async_op_tracker.wait_for_ops(on_finish); } void Watcher::unblock_notifies() { RWLock::WLocker locker(m_watch_lock); ceph_assert(m_blocked_count > 0); --m_blocked_count; ldout(m_cct, 5) << "blocked_count=" << m_blocked_count << dendl; } void Watcher::flush(Context *on_finish) { m_notifier.flush(on_finish); } std::string Watcher::get_oid() const { RWLock::RLocker locker(m_watch_lock); return m_oid; } void Watcher::set_oid(const string& oid) { RWLock::WLocker watch_locker(m_watch_lock); ceph_assert(is_unregistered(m_watch_lock)); m_oid = oid; } void Watcher::handle_error(uint64_t handle, int err) { lderr(m_cct) << "handle=" << handle << ": " << cpp_strerror(err) << dendl; RWLock::WLocker watch_locker(m_watch_lock); m_watch_error = true; if (is_registered(m_watch_lock)) { m_watch_state = WATCH_STATE_REWATCHING; if (err == -EBLACKLISTED) { m_watch_blacklisted = true; } FunctionContext *ctx = new FunctionContext( boost::bind(&Watcher::rewatch, this)); m_work_queue->queue(ctx); } } void Watcher::acknowledge_notify(uint64_t notify_id, uint64_t handle, bufferlist &out) { m_ioctx.notify_ack(m_oid, notify_id, handle, out); } void Watcher::rewatch() { ldout(m_cct, 10) << dendl; Context *unregister_watch_ctx = nullptr; { RWLock::WLocker watch_locker(m_watch_lock); ceph_assert(m_watch_state == WATCH_STATE_REWATCHING); if (m_unregister_watch_ctx != nullptr) { m_watch_state = WATCH_STATE_IDLE; std::swap(unregister_watch_ctx, m_unregister_watch_ctx); } else { m_watch_error = false; auto ctx = create_context_callback< Watcher, &Watcher::handle_rewatch>(this); auto req = RewatchRequest::create(m_ioctx, m_oid, m_watch_lock, &m_watch_ctx, &m_watch_handle, ctx); req->send(); return; } } unregister_watch_ctx->complete(0); } void Watcher::handle_rewatch(int r) { ldout(m_cct, 10) << "r=" << r << dendl; bool watch_error = false; Context *unregister_watch_ctx = nullptr; { RWLock::WLocker watch_locker(m_watch_lock); ceph_assert(m_watch_state == WATCH_STATE_REWATCHING); m_watch_blacklisted = false; if (m_unregister_watch_ctx != nullptr) { ldout(m_cct, 10) << "image is closing, skip rewatch" << dendl; m_watch_state = WATCH_STATE_IDLE; std::swap(unregister_watch_ctx, m_unregister_watch_ctx); } else if (r == -EBLACKLISTED) { lderr(m_cct) << "client blacklisted" << dendl; m_watch_blacklisted = true; } else if (r == -ENOENT) { ldout(m_cct, 5) << "object does not exist" << dendl; } else if (r < 0) { lderr(m_cct) << "failed to rewatch: " << cpp_strerror(r) << dendl; watch_error = true; } else if (m_watch_error) { lderr(m_cct) << "re-registering watch after error" << dendl; watch_error = true; } } if (unregister_watch_ctx != nullptr) { unregister_watch_ctx->complete(0); return; } else if (watch_error) { rewatch(); return; } auto ctx = create_context_callback< Watcher, &Watcher::handle_rewatch_callback>(this); m_work_queue->queue(ctx, r); } void Watcher::handle_rewatch_callback(int r) { ldout(m_cct, 10) << "r=" << r << dendl; handle_rewatch_complete(r); bool watch_error = false; Context *unregister_watch_ctx = nullptr; { RWLock::WLocker watch_locker(m_watch_lock); ceph_assert(m_watch_state == WATCH_STATE_REWATCHING); if (m_unregister_watch_ctx != nullptr) { m_watch_state = WATCH_STATE_IDLE; std::swap(unregister_watch_ctx, m_unregister_watch_ctx); } else if (r == -EBLACKLISTED || r == -ENOENT) { m_watch_state = WATCH_STATE_IDLE; } else if (r < 0 || m_watch_error) { watch_error = true; } else { m_watch_state = WATCH_STATE_IDLE; } } if (unregister_watch_ctx != nullptr) { unregister_watch_ctx->complete(0); } else if (watch_error) { rewatch(); } } void Watcher::send_notify(bufferlist& payload, watcher::NotifyResponse *response, Context *on_finish) { m_notifier.notify(payload, response, on_finish); } void Watcher::WatchCtx::handle_notify(uint64_t notify_id, uint64_t handle, uint64_t notifier_id, bufferlist& bl) { // if notifications are blocked, finish the notification w/o // bubbling the notification up to the derived class watcher.m_async_op_tracker.start_op(); if (watcher.notifications_blocked()) { bufferlist bl; watcher.acknowledge_notify(notify_id, handle, bl); } else { watcher.handle_notify(notify_id, handle, notifier_id, bl); } watcher.m_async_op_tracker.finish_op(); } void Watcher::WatchCtx::handle_error(uint64_t handle, int err) { watcher.handle_error(handle, err); } } // namespace librbd