// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #include "test/librbd/test_mock_fixture.h" #include "test/librbd/test_support.h" #include "test/librados_test_stub/MockTestMemIoCtxImpl.h" #include "common/bit_vector.hpp" #include "librbd/ImageState.h" #include "librbd/internal.h" #include "librbd/ObjectMap.h" #include "librbd/Operations.h" #include "librbd/object_map/UpdateRequest.h" #include "gmock/gmock.h" #include "gtest/gtest.h" namespace librbd { namespace object_map { using ::testing::_; using ::testing::DoDefault; using ::testing::InSequence; using ::testing::Return; using ::testing::StrEq; class TestMockObjectMapUpdateRequest : public TestMockFixture { public: void expect_update(librbd::ImageCtx *ictx, uint64_t snap_id, uint64_t start_object_no, uint64_t end_object_no, uint8_t new_state, const boost::optional& current_state, int r) { bufferlist bl; ::encode(start_object_no, bl); ::encode(end_object_no, bl); ::encode(new_state, bl); ::encode(current_state, bl); std::string oid(ObjectMap<>::object_map_name(ictx->id, snap_id)); if (snap_id == CEPH_NOSNAP) { EXPECT_CALL(get_mock_io_ctx(ictx->md_ctx), exec(oid, _, StrEq("lock"), StrEq("assert_locked"), _, _, _)) .WillOnce(DoDefault()); } if (r < 0) { EXPECT_CALL(get_mock_io_ctx(ictx->md_ctx), exec(oid, _, StrEq("rbd"), StrEq("object_map_update"), ContentsEqual(bl), _, _)) .WillOnce(Return(r)); } else { EXPECT_CALL(get_mock_io_ctx(ictx->md_ctx), exec(oid, _, StrEq("rbd"), StrEq("object_map_update"), ContentsEqual(bl), _, _)) .WillOnce(DoDefault()); } } void expect_invalidate(librbd::ImageCtx *ictx) { EXPECT_CALL(get_mock_io_ctx(ictx->md_ctx), exec(ictx->header_oid, _, StrEq("rbd"), StrEq("set_flags"), _, _, _)) .WillOnce(DoDefault()); } }; TEST_F(TestMockObjectMapUpdateRequest, UpdateInMemory) { REQUIRE_FEATURE(RBD_FEATURE_OBJECT_MAP); librbd::ImageCtx *ictx; ASSERT_EQ(0, open_image(m_image_name, &ictx)); librbd::NoOpProgressContext no_progress; ASSERT_EQ(0, ictx->operations->resize(4 << ictx->order, true, no_progress)); ASSERT_EQ(0, acquire_exclusive_lock(*ictx)); ceph::BitVector<2> object_map; object_map.resize(4); for (uint64_t i = 0; i < object_map.size(); ++i) { object_map[i] = i % 4; } C_SaferCond cond_ctx; AsyncRequest<> *req = new UpdateRequest<>( *ictx, &object_map, CEPH_NOSNAP, 0, object_map.size(), OBJECT_NONEXISTENT, OBJECT_EXISTS, {}, &cond_ctx); { RWLock::RLocker snap_locker(ictx->snap_lock); RWLock::WLocker object_map_locker(ictx->object_map_lock); req->send(); } ASSERT_EQ(0, cond_ctx.wait()); for (uint64_t i = 0; i < object_map.size(); ++i) { if (i % 4 == OBJECT_EXISTS || i % 4 == OBJECT_EXISTS_CLEAN) { ASSERT_EQ(OBJECT_NONEXISTENT, object_map[i]); } else { ASSERT_EQ(i % 4, object_map[i]); } } } TEST_F(TestMockObjectMapUpdateRequest, UpdateHeadOnDisk) { REQUIRE_FEATURE(RBD_FEATURE_OBJECT_MAP); librbd::ImageCtx *ictx; ASSERT_EQ(0, open_image(m_image_name, &ictx)); ASSERT_EQ(0, acquire_exclusive_lock(*ictx)); expect_update(ictx, CEPH_NOSNAP, 0, 1, OBJECT_NONEXISTENT, OBJECT_EXISTS, 0); ceph::BitVector<2> object_map; object_map.resize(1); C_SaferCond cond_ctx; AsyncRequest<> *req = new UpdateRequest<>( *ictx, &object_map, CEPH_NOSNAP, 0, object_map.size(), OBJECT_NONEXISTENT, OBJECT_EXISTS, {}, &cond_ctx); { RWLock::RLocker snap_locker(ictx->snap_lock); RWLock::WLocker object_map_locker(ictx->object_map_lock); req->send(); } ASSERT_EQ(0, cond_ctx.wait()); expect_unlock_exclusive_lock(*ictx); } TEST_F(TestMockObjectMapUpdateRequest, UpdateSnapOnDisk) { REQUIRE_FEATURE(RBD_FEATURE_OBJECT_MAP); librbd::ImageCtx *ictx; ASSERT_EQ(0, open_image(m_image_name, &ictx)); ASSERT_EQ(0, snap_create(*ictx, "snap1")); ASSERT_EQ(0, librbd::snap_set(ictx, cls::rbd::UserSnapshotNamespace(), "snap1")); uint64_t snap_id = ictx->snap_id; expect_update(ictx, snap_id, 0, 1, OBJECT_NONEXISTENT, OBJECT_EXISTS, 0); ceph::BitVector<2> object_map; object_map.resize(1); C_SaferCond cond_ctx; AsyncRequest<> *req = new UpdateRequest<>( *ictx, &object_map, snap_id, 0, object_map.size(), OBJECT_NONEXISTENT, OBJECT_EXISTS, {}, &cond_ctx); { RWLock::RLocker snap_locker(ictx->snap_lock); RWLock::WLocker object_map_locker(ictx->object_map_lock); req->send(); } ASSERT_EQ(0, cond_ctx.wait()); expect_unlock_exclusive_lock(*ictx); } TEST_F(TestMockObjectMapUpdateRequest, UpdateOnDiskError) { REQUIRE_FEATURE(RBD_FEATURE_OBJECT_MAP); librbd::ImageCtx *ictx; ASSERT_EQ(0, open_image(m_image_name, &ictx)); ASSERT_EQ(0, acquire_exclusive_lock(*ictx)); expect_update(ictx, CEPH_NOSNAP, 0, 1, OBJECT_NONEXISTENT, OBJECT_EXISTS, -EINVAL); expect_invalidate(ictx); ceph::BitVector<2> object_map; object_map.resize(1); C_SaferCond cond_ctx; AsyncRequest<> *req = new UpdateRequest<>( *ictx, &object_map, CEPH_NOSNAP, 0, object_map.size(), OBJECT_NONEXISTENT, OBJECT_EXISTS, {}, &cond_ctx); { RWLock::RLocker snap_locker(ictx->snap_lock); RWLock::WLocker object_map_locker(ictx->object_map_lock); req->send(); } ASSERT_EQ(0, cond_ctx.wait()); expect_unlock_exclusive_lock(*ictx); } TEST_F(TestMockObjectMapUpdateRequest, RebuildSnapOnDisk) { REQUIRE_FEATURE(RBD_FEATURE_OBJECT_MAP); librbd::ImageCtx *ictx; ASSERT_EQ(0, open_image(m_image_name, &ictx)); ASSERT_EQ(0, snap_create(*ictx, "snap1")); ASSERT_EQ(0, ictx->state->refresh_if_required()); ASSERT_EQ(CEPH_NOSNAP, ictx->snap_id); uint64_t snap_id = ictx->snap_info.rbegin()->first; expect_update(ictx, snap_id, 0, 1, OBJECT_EXISTS_CLEAN, boost::optional(), 0); expect_unlock_exclusive_lock(*ictx); ceph::BitVector<2> object_map; object_map.resize(1); C_SaferCond cond_ctx; AsyncRequest<> *req = new UpdateRequest<>( *ictx, &object_map, snap_id, 0, object_map.size(), OBJECT_EXISTS_CLEAN, boost::optional(), {}, &cond_ctx); { RWLock::RLocker snap_locker(ictx->snap_lock); RWLock::WLocker object_map_locker(ictx->object_map_lock); req->send(); } ASSERT_EQ(0, cond_ctx.wait()); // do not update the in-memory map if rebuilding a snapshot ASSERT_NE(OBJECT_EXISTS_CLEAN, object_map[0]); } TEST_F(TestMockObjectMapUpdateRequest, BatchUpdate) { REQUIRE_FEATURE(RBD_FEATURE_OBJECT_MAP); librbd::ImageCtx *ictx; ASSERT_EQ(0, open_image(m_image_name, &ictx)); librbd::NoOpProgressContext no_progress; ASSERT_EQ(0, ictx->operations->resize(712312 * ictx->get_object_size(), false, no_progress)); ASSERT_EQ(0, acquire_exclusive_lock(*ictx)); InSequence seq; expect_update(ictx, CEPH_NOSNAP, 0, 262144, OBJECT_NONEXISTENT, OBJECT_EXISTS, 0); expect_update(ictx, CEPH_NOSNAP, 262144, 524288, OBJECT_NONEXISTENT, OBJECT_EXISTS, 0); expect_update(ictx, CEPH_NOSNAP, 524288, 712312, OBJECT_NONEXISTENT, OBJECT_EXISTS, 0); expect_unlock_exclusive_lock(*ictx); ceph::BitVector<2> object_map; object_map.resize(712312); C_SaferCond cond_ctx; AsyncRequest<> *req = new UpdateRequest<>( *ictx, &object_map, CEPH_NOSNAP, 0, object_map.size(), OBJECT_NONEXISTENT, OBJECT_EXISTS, {}, &cond_ctx); { RWLock::RLocker snap_locker(ictx->snap_lock); RWLock::WLocker object_map_locker(ictx->object_map_lock); req->send(); } ASSERT_EQ(0, cond_ctx.wait()); } } // namespace object_map } // namespace librbd