// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #include "librbd/operation/ObjectMapIterate.h" #include "common/dout.h" #include "common/errno.h" #include "osdc/Striper.h" #include "librbd/AsyncObjectThrottle.h" #include "librbd/ExclusiveLock.h" #include "librbd/ImageCtx.h" #include "librbd/ImageWatcher.h" #include "librbd/internal.h" #include "librbd/ObjectMap.h" #include "librbd/operation/ResizeRequest.h" #include "librbd/object_map/InvalidateRequest.h" #include "librbd/Utils.h" #include #include #define dout_subsys ceph_subsys_rbd #undef dout_prefix #define dout_prefix *_dout << "librbd::ObjectMapIterateRequest: " namespace librbd { namespace operation { namespace { template class C_VerifyObjectCallback : public C_AsyncObjectThrottle { public: C_VerifyObjectCallback(AsyncObjectThrottle &throttle, I *image_ctx, uint64_t snap_id, uint64_t object_no, ObjectIterateWork handle_mismatch, std::atomic_flag *invalidate) : C_AsyncObjectThrottle(throttle, *image_ctx), m_snap_id(snap_id), m_object_no(object_no), m_oid(image_ctx->get_object_name(m_object_no)), m_handle_mismatch(handle_mismatch), m_invalidate(invalidate) { m_io_ctx.dup(image_ctx->data_ctx); m_io_ctx.snap_set_read(CEPH_SNAPDIR); } void complete(int r) override { I &image_ctx = this->m_image_ctx; if (should_complete(r)) { ldout(image_ctx.cct, 20) << m_oid << " C_VerifyObjectCallback completed " << dendl; m_io_ctx.close(); this->finish(r); delete this; } } int send() override { send_list_snaps(); return 0; } private: librados::IoCtx m_io_ctx; uint64_t m_snap_id; uint64_t m_object_no; std::string m_oid; ObjectIterateWork m_handle_mismatch; std::atomic_flag *m_invalidate; librados::snap_set_t m_snap_set; int m_snap_list_ret = 0; bool should_complete(int r) { I &image_ctx = this->m_image_ctx; CephContext *cct = image_ctx.cct; if (r == 0) { r = m_snap_list_ret; } if (r < 0 && r != -ENOENT) { lderr(cct) << m_oid << " C_VerifyObjectCallback::should_complete: " << "encountered an error: " << cpp_strerror(r) << dendl; return true; } ldout(cct, 20) << m_oid << " C_VerifyObjectCallback::should_complete: " << " r=" << r << dendl; return object_map_action(get_object_state()); } void send_list_snaps() { I &image_ctx = this->m_image_ctx; ceph_assert(image_ctx.owner_lock.is_locked()); ldout(image_ctx.cct, 5) << m_oid << " C_VerifyObjectCallback::send_list_snaps" << dendl; librados::ObjectReadOperation op; op.list_snaps(&m_snap_set, &m_snap_list_ret); librados::AioCompletion *comp = util::create_rados_callback(this); int r = m_io_ctx.aio_operate(m_oid, comp, &op, NULL); ceph_assert(r == 0); comp->release(); } uint8_t get_object_state() { I &image_ctx = this->m_image_ctx; RWLock::RLocker snap_locker(image_ctx.snap_lock); for (std::vector::const_iterator r = m_snap_set.clones.begin(); r != m_snap_set.clones.end(); ++r) { librados::snap_t from_snap_id; librados::snap_t to_snap_id; if (r->cloneid == librados::SNAP_HEAD) { from_snap_id = next_valid_snap_id(m_snap_set.seq + 1); to_snap_id = librados::SNAP_HEAD; } else { from_snap_id = next_valid_snap_id(r->snaps[0]); to_snap_id = r->snaps[r->snaps.size()-1]; } if (to_snap_id < m_snap_id) { continue; } else if (m_snap_id < from_snap_id) { break; } if ((image_ctx.features & RBD_FEATURE_FAST_DIFF) != 0 && from_snap_id != m_snap_id) { return OBJECT_EXISTS_CLEAN; } return OBJECT_EXISTS; } return OBJECT_NONEXISTENT; } uint64_t next_valid_snap_id(uint64_t snap_id) { I &image_ctx = this->m_image_ctx; ceph_assert(image_ctx.snap_lock.is_locked()); std::map::iterator it = image_ctx.snap_info.lower_bound(snap_id); if (it == image_ctx.snap_info.end()) { return CEPH_NOSNAP; } return it->first; } bool object_map_action(uint8_t new_state) { I &image_ctx = this->m_image_ctx; CephContext *cct = image_ctx.cct; RWLock::RLocker owner_locker(image_ctx.owner_lock); // should have been canceled prior to releasing lock ceph_assert(image_ctx.exclusive_lock == nullptr || image_ctx.exclusive_lock->is_lock_owner()); RWLock::RLocker snap_locker(image_ctx.snap_lock); ceph_assert(image_ctx.object_map != nullptr); RWLock::WLocker l(image_ctx.object_map_lock); uint8_t state = (*image_ctx.object_map)[m_object_no]; ldout(cct, 10) << "C_VerifyObjectCallback::object_map_action" << " object " << image_ctx.get_object_name(m_object_no) << " state " << (int)state << " new_state " << (int)new_state << dendl; if (state != new_state) { int r = 0; ceph_assert(m_handle_mismatch); r = m_handle_mismatch(image_ctx, m_object_no, state, new_state); if (r) { lderr(cct) << "object map error: object " << image_ctx.get_object_name(m_object_no) << " marked as " << (int)state << ", but should be " << (int)new_state << dendl; m_invalidate->test_and_set(); } else { ldout(cct, 1) << "object map inconsistent: object " << image_ctx.get_object_name(m_object_no) << " marked as " << (int)state << ", but should be " << (int)new_state << dendl; } } return true; } }; } // anonymous namespace template void ObjectMapIterateRequest::send() { if (!m_image_ctx.data_ctx.is_valid()) { this->async_complete(-ENODEV); return; } send_verify_objects(); } template bool ObjectMapIterateRequest::should_complete(int r) { CephContext *cct = m_image_ctx.cct; ldout(cct, 5) << this << " should_complete: " << " r=" << r << dendl; if (r == -ENODEV) { lderr(cct) << "missing data pool" << dendl; return true; } if (r < 0) { lderr(cct) << "object map operation encountered an error: " << cpp_strerror(r) << dendl; } RWLock::RLocker owner_lock(m_image_ctx.owner_lock); switch (m_state) { case STATE_VERIFY_OBJECTS: if (m_invalidate.test_and_set()) { send_invalidate_object_map(); return false; } else if (r == 0) { return true; } break; case STATE_INVALIDATE_OBJECT_MAP: if (r == 0) { return true; } break; default: ceph_abort(); break; } if (r < 0) { return true; } return false; } template void ObjectMapIterateRequest::send_verify_objects() { ceph_assert(m_image_ctx.owner_lock.is_locked()); CephContext *cct = m_image_ctx.cct; uint64_t snap_id; uint64_t num_objects; { RWLock::RLocker l(m_image_ctx.snap_lock); snap_id = m_image_ctx.snap_id; num_objects = Striper::get_num_objects(m_image_ctx.layout, m_image_ctx.get_image_size(snap_id)); } ldout(cct, 5) << this << " send_verify_objects" << dendl; m_state = STATE_VERIFY_OBJECTS; typename AsyncObjectThrottle::ContextFactory context_factory( boost::lambda::bind(boost::lambda::new_ptr >(), boost::lambda::_1, &m_image_ctx, snap_id, boost::lambda::_2, m_handle_mismatch, &m_invalidate)); AsyncObjectThrottle *throttle = new AsyncObjectThrottle( this, m_image_ctx, context_factory, this->create_callback_context(), &m_prog_ctx, 0, num_objects); throttle->start_ops( m_image_ctx.config.template get_val("rbd_concurrent_management_ops")); } template uint64_t ObjectMapIterateRequest::get_image_size() const { ceph_assert(m_image_ctx.snap_lock.is_locked()); if (m_image_ctx.snap_id == CEPH_NOSNAP) { if (!m_image_ctx.resize_reqs.empty()) { return m_image_ctx.resize_reqs.front()->get_image_size(); } else { return m_image_ctx.size; } } return m_image_ctx.get_image_size(m_image_ctx.snap_id); } template void ObjectMapIterateRequest::send_invalidate_object_map() { CephContext *cct = m_image_ctx.cct; ldout(cct, 5) << this << " send_invalidate_object_map" << dendl; m_state = STATE_INVALIDATE_OBJECT_MAP; object_map::InvalidateRequest*req = object_map::InvalidateRequest::create(m_image_ctx, m_image_ctx.snap_id, true, this->create_callback_context()); ceph_assert(m_image_ctx.owner_lock.is_locked()); RWLock::WLocker snap_locker(m_image_ctx.snap_lock); req->send(); } } // namespace operation } // namespace librbd template class librbd::operation::ObjectMapIterateRequest;