#include #include #include #include "gtest/gtest.h" #include "include/rados.h" #include "include/rados/librados.hpp" #include "test/librados/test_cxx.h" #include "test/librados/testcase_cxx.h" using namespace librados; typedef RadosTestPP LibRadosSnapshotsPP; typedef RadosTestPP LibRadosSnapshotsSelfManagedPP; typedef RadosTestECPP LibRadosSnapshotsECPP; typedef RadosTestECPP LibRadosSnapshotsSelfManagedECPP; const int bufsize = 128; TEST_F(LibRadosSnapshotsPP, SnapListPP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_FALSE(cluster.get_pool_is_selfmanaged_snaps_mode(pool_name)); ASSERT_EQ(0, ioctx.snap_create("snap1")); ASSERT_FALSE(cluster.get_pool_is_selfmanaged_snaps_mode(pool_name)); std::vector snaps; EXPECT_EQ(0, ioctx.snap_list(&snaps)); EXPECT_EQ(1U, snaps.size()); snap_t rid; EXPECT_EQ(0, ioctx.snap_lookup("snap1", &rid)); EXPECT_EQ(rid, snaps[0]); EXPECT_EQ(0, ioctx.snap_remove("snap1")); ASSERT_FALSE(cluster.get_pool_is_selfmanaged_snaps_mode(pool_name)); } TEST_F(LibRadosSnapshotsPP, SnapRemovePP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snap1")); rados_snap_t rid; ASSERT_EQ(0, ioctx.snap_lookup("snap1", &rid)); ASSERT_EQ(0, ioctx.snap_remove("snap1")); ASSERT_EQ(-ENOENT, ioctx.snap_lookup("snap1", &rid)); } TEST_F(LibRadosSnapshotsPP, RollbackPP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snap1")); char buf2[sizeof(buf)]; memset(buf2, 0xdd, sizeof(buf2)); bufferlist bl2; bl2.append(buf2, sizeof(buf2)); EXPECT_EQ(0, ioctx.write_full("foo", bl2)); EXPECT_EQ(0, ioctx.snap_rollback("foo", "snap1")); bufferlist bl3; EXPECT_EQ((int)sizeof(buf), ioctx.read("foo", bl3, sizeof(buf), 0)); EXPECT_EQ(0, memcmp(buf, bl3.c_str(), sizeof(buf))); EXPECT_EQ(0, ioctx.snap_remove("snap1")); } TEST_F(LibRadosSnapshotsPP, SnapGetNamePP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl; bl.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snapfoo")); rados_snap_t rid; EXPECT_EQ(0, ioctx.snap_lookup("snapfoo", &rid)); EXPECT_EQ(-ENOENT, ioctx.snap_lookup("snapbar", &rid)); std::string name; EXPECT_EQ(0, ioctx.snap_get_name(rid, &name)); time_t snaptime; EXPECT_EQ(0, ioctx.snap_get_stamp(rid, &snaptime)); EXPECT_EQ(0, strcmp(name.c_str(), "snapfoo")); EXPECT_EQ(0, ioctx.snap_remove("snapfoo")); } TEST_F(LibRadosSnapshotsPP, SnapCreateRemovePP) { // reproduces http://tracker.ceph.com/issues/10262 bufferlist bl; bl.append("foo"); ASSERT_EQ(0, ioctx.write("foo", bl, bl.length(), 0)); ASSERT_EQ(0, ioctx.snap_create("snapfoo")); ASSERT_EQ(0, ioctx.remove("foo")); ASSERT_EQ(0, ioctx.snap_create("snapbar")); std::unique_ptr op(new librados::ObjectWriteOperation()); op->create(false); op->remove(); ASSERT_EQ(0, ioctx.operate("foo", op.get())); EXPECT_EQ(0, ioctx.snap_remove("snapfoo")); EXPECT_EQ(0, ioctx.snap_remove("snapbar")); } TEST_F(LibRadosSnapshotsSelfManagedPP, SnapPP) { std::vector my_snaps; my_snaps.push_back(-2); ASSERT_FALSE(cluster.get_pool_is_selfmanaged_snaps_mode(pool_name)); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ASSERT_TRUE(cluster.get_pool_is_selfmanaged_snaps_mode(pool_name)); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); my_snaps.push_back(-2); librados::AioCompletion *completion = cluster.aio_create_completion(); ioctx.aio_selfmanaged_snap_create(&my_snaps.back(), completion); ASSERT_EQ(0, completion->wait_for_complete()); completion->release(); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf2[sizeof(buf)]; memset(buf2, 0xdd, sizeof(buf2)); bufferlist bl2; bl2.append(buf2, sizeof(buf2)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), 0)); ioctx.snap_set_read(my_snaps[1]); bufferlist bl3; ASSERT_EQ((int)sizeof(buf), ioctx.read("foo", bl3, sizeof(buf), 0)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, sizeof(buf))); completion = cluster.aio_create_completion(); ioctx.aio_selfmanaged_snap_remove(my_snaps.back(), completion); ASSERT_EQ(0, completion->wait_for_complete()); completion->release(); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ioctx.snap_set_read(LIBRADOS_SNAP_HEAD); ASSERT_TRUE(cluster.get_pool_is_selfmanaged_snaps_mode(pool_name)); ASSERT_EQ(0, ioctx.remove("foo")); } TEST_F(LibRadosSnapshotsSelfManagedPP, RollbackPP) { std::vector my_snaps; IoCtx readioctx; ASSERT_EQ(0, cluster.ioctx_create(pool_name.c_str(), readioctx)); readioctx.set_namespace(nspace); readioctx.snap_set_read(LIBRADOS_SNAP_DIR); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); //Write 3 consecutive buffers ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), bufsize)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), bufsize*2)); snap_set_t ss; snap_t head = SNAP_HEAD; ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(1u, ss.clones.size()); ASSERT_EQ(head, ss.clones[0].cloneid); ASSERT_EQ(0u, ss.clones[0].snaps.size()); ASSERT_EQ(0u, ss.clones[0].overlap.size()); ASSERT_EQ(384u, ss.clones[0].size); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf2[sizeof(buf)]; memset(buf2, 0xdd, sizeof(buf2)); bufferlist bl2; bl2.append(buf2, sizeof(buf2)); //Change the middle buffer ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize)); //Add another after ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize*3)); ASSERT_EQ(-EINVAL, ioctx.list_snaps("foo", &ss)); ObjectReadOperation o; o.list_snaps(&ss, NULL); ASSERT_EQ(-EINVAL, ioctx.operate("foo", &o, NULL)); ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(2u, ss.clones.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].cloneid); ASSERT_EQ(1u, ss.clones[0].snaps.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].snaps[0]); ASSERT_EQ(2u, ss.clones[0].overlap.size()); ASSERT_EQ(0u, ss.clones[0].overlap[0].first); ASSERT_EQ(128u, ss.clones[0].overlap[0].second); ASSERT_EQ(256u, ss.clones[0].overlap[1].first); ASSERT_EQ(128u, ss.clones[0].overlap[1].second); ASSERT_EQ(384u, ss.clones[0].size); ASSERT_EQ(head, ss.clones[1].cloneid); ASSERT_EQ(0u, ss.clones[1].snaps.size()); ASSERT_EQ(0u, ss.clones[1].overlap.size()); ASSERT_EQ(512u, ss.clones[1].size); ioctx.selfmanaged_snap_rollback("foo", my_snaps[1]); bufferlist bl3; ASSERT_EQ((int)sizeof(buf), ioctx.read("foo", bl3, sizeof(buf), 0)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, sizeof(buf))); ASSERT_EQ((int)sizeof(buf), ioctx.read("foo", bl3, sizeof(buf), bufsize)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, sizeof(buf))); ASSERT_EQ((int)sizeof(buf), ioctx.read("foo", bl3, sizeof(buf), bufsize*2)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, sizeof(buf))); ASSERT_EQ((int)0, ioctx.read("foo", bl3, sizeof(buf), bufsize*3)); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); readioctx.close(); } TEST_F(LibRadosSnapshotsSelfManagedPP, SnapOverlapPP) { std::vector my_snaps; IoCtx readioctx; ASSERT_EQ(0, cluster.ioctx_create(pool_name.c_str(), readioctx)); readioctx.set_namespace(nspace); readioctx.snap_set_read(LIBRADOS_SNAP_DIR); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), bufsize*2)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), bufsize*4)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), bufsize*6)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), bufsize*8)); snap_set_t ss; snap_t head = SNAP_HEAD; ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(1u, ss.clones.size()); ASSERT_EQ(head, ss.clones[0].cloneid); ASSERT_EQ(0u, ss.clones[0].snaps.size()); ASSERT_EQ(0u, ss.clones[0].overlap.size()); ASSERT_EQ(1152u, ss.clones[0].size); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf2[sizeof(buf)]; memset(buf2, 0xdd, sizeof(buf2)); bufferlist bl2; bl2.append(buf2, sizeof(buf2)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize*1)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize*3)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize*5)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize*7)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize*9)); ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(2u, ss.clones.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].cloneid); ASSERT_EQ(1u, ss.clones[0].snaps.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].snaps[0]); ASSERT_EQ(5u, ss.clones[0].overlap.size()); ASSERT_EQ(0u, ss.clones[0].overlap[0].first); ASSERT_EQ(128u, ss.clones[0].overlap[0].second); ASSERT_EQ(256u, ss.clones[0].overlap[1].first); ASSERT_EQ(128u, ss.clones[0].overlap[1].second); ASSERT_EQ(512u, ss.clones[0].overlap[2].first); ASSERT_EQ(128u, ss.clones[0].overlap[2].second); ASSERT_EQ(768u, ss.clones[0].overlap[3].first); ASSERT_EQ(128u, ss.clones[0].overlap[3].second); ASSERT_EQ(1024u, ss.clones[0].overlap[4].first); ASSERT_EQ(128u, ss.clones[0].overlap[4].second); ASSERT_EQ(1152u, ss.clones[0].size); ASSERT_EQ(head, ss.clones[1].cloneid); ASSERT_EQ(0u, ss.clones[1].snaps.size()); ASSERT_EQ(0u, ss.clones[1].overlap.size()); ASSERT_EQ(1280u, ss.clones[1].size); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char buf3[sizeof(buf)]; memset(buf3, 0xee, sizeof(buf3)); bufferlist bl4; bl4.append(buf3, sizeof(buf3)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf3), bufsize*1)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf3), bufsize*4)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf3), bufsize*5)); ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf3), bufsize*8)); ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(3u, ss.clones.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].cloneid); ASSERT_EQ(1u, ss.clones[0].snaps.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].snaps[0]); ASSERT_EQ(5u, ss.clones[0].overlap.size()); ASSERT_EQ(0u, ss.clones[0].overlap[0].first); ASSERT_EQ(128u, ss.clones[0].overlap[0].second); ASSERT_EQ(256u, ss.clones[0].overlap[1].first); ASSERT_EQ(128u, ss.clones[0].overlap[1].second); ASSERT_EQ(512u, ss.clones[0].overlap[2].first); ASSERT_EQ(128u, ss.clones[0].overlap[2].second); ASSERT_EQ(768u, ss.clones[0].overlap[3].first); ASSERT_EQ(128u, ss.clones[0].overlap[3].second); ASSERT_EQ(1024u, ss.clones[0].overlap[4].first); ASSERT_EQ(128u, ss.clones[0].overlap[4].second); ASSERT_EQ(1152u, ss.clones[0].size); ASSERT_EQ(my_snaps[2], ss.clones[1].cloneid); ASSERT_EQ(1u, ss.clones[1].snaps.size()); ASSERT_EQ(my_snaps[2], ss.clones[1].snaps[0]); ASSERT_EQ(4u, ss.clones[1].overlap.size()); ASSERT_EQ(0u, ss.clones[1].overlap[0].first); ASSERT_EQ(128u, ss.clones[1].overlap[0].second); ASSERT_EQ(256u, ss.clones[1].overlap[1].first); ASSERT_EQ(256u, ss.clones[1].overlap[1].second); ASSERT_EQ(768u, ss.clones[1].overlap[2].first); ASSERT_EQ(256u, ss.clones[1].overlap[2].second); ASSERT_EQ(1152u, ss.clones[1].overlap[3].first); ASSERT_EQ(128u, ss.clones[1].overlap[3].second); ASSERT_EQ(1280u, ss.clones[1].size); ASSERT_EQ(head, ss.clones[2].cloneid); ASSERT_EQ(0u, ss.clones[2].snaps.size()); ASSERT_EQ(0u, ss.clones[2].overlap.size()); ASSERT_EQ(1280u, ss.clones[2].size); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); readioctx.close(); } TEST_F(LibRadosSnapshotsSelfManagedPP, Bug11677) { std::vector my_snaps; my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); int bsize = 1<<20; char *buf = (char *)new char[bsize]; memset(buf, 0xcc, bsize); bufferlist bl1; bl1.append(buf, bsize); ASSERT_EQ(0, ioctx.write("foo", bl1, bsize, 0)); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); std::unique_ptr op(new librados::ObjectWriteOperation()); op->assert_exists(); op->remove(); ASSERT_EQ(0, ioctx.operate("foo", op.get())); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ioctx.snap_set_read(LIBRADOS_SNAP_HEAD); delete[] buf; } TEST_F(LibRadosSnapshotsSelfManagedPP, OrderSnap) { std::vector my_snaps; char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl; bl.append(buf, sizeof(buf)); int flags = librados::OPERATION_ORDERSNAP; my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); ObjectWriteOperation op1; op1.write(0, bl); librados::AioCompletion *comp1 = cluster.aio_create_completion(); ASSERT_EQ(0, ioctx.aio_operate("foo", comp1, &op1, flags)); ASSERT_EQ(0, comp1->wait_for_complete()); ASSERT_EQ(0, comp1->get_return_value()); comp1->release(); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); ObjectWriteOperation op2; op2.write(0, bl); librados::AioCompletion *comp2 = cluster.aio_create_completion(); ASSERT_EQ(0, ioctx.aio_operate("foo", comp2, &op2, flags)); ASSERT_EQ(0, comp2->wait_for_complete()); ASSERT_EQ(0, comp2->get_return_value()); comp2->release(); my_snaps.pop_back(); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); ObjectWriteOperation op3; op3.write(0, bl); librados::AioCompletion *comp3 = cluster.aio_create_completion(); ASSERT_EQ(0, ioctx.aio_operate("foo", comp3, &op3, flags)); ASSERT_EQ(0, comp3->wait_for_complete()); ASSERT_EQ(-EOLDSNAPC, comp3->get_return_value()); comp3->release(); ObjectWriteOperation op4; op4.write(0, bl); librados::AioCompletion *comp4 = cluster.aio_create_completion(); ASSERT_EQ(0, ioctx.aio_operate("foo", comp4, &op4, 0)); ASSERT_EQ(0, comp4->wait_for_complete()); ASSERT_EQ(0, comp4->get_return_value()); comp4->release(); } // EC testing TEST_F(LibRadosSnapshotsECPP, SnapListPP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snap1")); std::vector snaps; EXPECT_EQ(0, ioctx.snap_list(&snaps)); EXPECT_EQ(1U, snaps.size()); snap_t rid; EXPECT_EQ(0, ioctx.snap_lookup("snap1", &rid)); EXPECT_EQ(rid, snaps[0]); EXPECT_EQ(0, ioctx.snap_remove("snap1")); } TEST_F(LibRadosSnapshotsECPP, SnapRemovePP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snap1")); rados_snap_t rid; ASSERT_EQ(0, ioctx.snap_lookup("snap1", &rid)); ASSERT_EQ(0, ioctx.snap_remove("snap1")); ASSERT_EQ(-ENOENT, ioctx.snap_lookup("snap1", &rid)); } TEST_F(LibRadosSnapshotsECPP, RollbackPP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl1; bl1.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl1, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snap1")); char buf2[sizeof(buf)]; memset(buf2, 0xdd, sizeof(buf2)); bufferlist bl2; bl2.append(buf2, sizeof(buf2)); EXPECT_EQ(0, ioctx.write_full("foo", bl2)); EXPECT_EQ(0, ioctx.snap_rollback("foo", "snap1")); bufferlist bl3; EXPECT_EQ((int)sizeof(buf), ioctx.read("foo", bl3, sizeof(buf), 0)); EXPECT_EQ(0, memcmp(buf, bl3.c_str(), sizeof(buf))); EXPECT_EQ(0, ioctx.snap_remove("snap1")); } TEST_F(LibRadosSnapshotsECPP, SnapGetNamePP) { char buf[bufsize]; memset(buf, 0xcc, sizeof(buf)); bufferlist bl; bl.append(buf, sizeof(buf)); ASSERT_EQ(0, ioctx.write("foo", bl, sizeof(buf), 0)); ASSERT_EQ(0, ioctx.snap_create("snapfoo")); rados_snap_t rid; EXPECT_EQ(0, ioctx.snap_lookup("snapfoo", &rid)); EXPECT_EQ(-ENOENT, ioctx.snap_lookup("snapbar", &rid)); std::string name; EXPECT_EQ(0, ioctx.snap_get_name(rid, &name)); time_t snaptime; EXPECT_EQ(0, ioctx.snap_get_stamp(rid, &snaptime)); EXPECT_EQ(0, strcmp(name.c_str(), "snapfoo")); EXPECT_EQ(0, ioctx.snap_remove("snapfoo")); } TEST_F(LibRadosSnapshotsSelfManagedECPP, SnapPP) { std::vector my_snaps; my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); int bsize = alignment; char *buf = (char *)new char[bsize]; memset(buf, 0xcc, bsize); bufferlist bl1; bl1.append(buf, bsize); ASSERT_EQ(0, ioctx.write("foo", bl1, bsize, 0)); my_snaps.push_back(-2); librados::AioCompletion *completion = cluster.aio_create_completion(); ioctx.aio_selfmanaged_snap_create(&my_snaps.back(), completion); ASSERT_EQ(0, completion->wait_for_complete()); completion->release(); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char *buf2 = (char *)new char[bsize]; memset(buf2, 0xdd, bsize); bufferlist bl2; bl2.append(buf2, bsize); // Add another aligned buffer ASSERT_EQ(0, ioctx.write("foo", bl2, bsize, bsize)); ioctx.snap_set_read(my_snaps[1]); bufferlist bl3; ASSERT_EQ(bsize, ioctx.read("foo", bl3, bsize*3, 0)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, bsize)); completion = cluster.aio_create_completion(); ioctx.aio_selfmanaged_snap_remove(my_snaps.back(), completion); ASSERT_EQ(0, completion->wait_for_complete()); completion->release(); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ioctx.snap_set_read(LIBRADOS_SNAP_HEAD); ASSERT_EQ(0, ioctx.remove("foo")); delete[] buf; delete[] buf2; } TEST_F(LibRadosSnapshotsSelfManagedECPP, RollbackPP) { std::vector my_snaps; IoCtx readioctx; ASSERT_EQ(0, cluster.ioctx_create(pool_name.c_str(), readioctx)); readioctx.set_namespace(nspace); readioctx.snap_set_read(LIBRADOS_SNAP_DIR); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); int bsize = alignment; char *buf = (char *)new char[bsize]; memset(buf, 0xcc, bsize); bufferlist bl1; bl1.append(buf, bsize); //Write 3 consecutive buffers ASSERT_EQ(0, ioctx.write("foo", bl1, bsize, 0)); ASSERT_EQ(0, ioctx.write("foo", bl1, bsize, bsize)); ASSERT_EQ(0, ioctx.write("foo", bl1, bsize, bsize*2)); snap_set_t ss; snap_t head = SNAP_HEAD; ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(1u, ss.clones.size()); ASSERT_EQ(head, ss.clones[0].cloneid); ASSERT_EQ(0u, ss.clones[0].snaps.size()); ASSERT_EQ(0u, ss.clones[0].overlap.size()); ASSERT_EQ((unsigned)(bsize*3), ss.clones[0].size); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); char *buf2 = (char *)new char[bsize]; memset(buf2, 0xdd, bsize); bufferlist bl2; bl2.append(buf2, bsize); //Change the middle buffer //ASSERT_EQ(0, ioctx.write("foo", bl2, sizeof(buf2), bufsize)); //Add another after ASSERT_EQ(0, ioctx.write("foo", bl2, bsize, bsize*3)); ASSERT_EQ(-EINVAL, ioctx.list_snaps("foo", &ss)); ObjectReadOperation o; o.list_snaps(&ss, NULL); ASSERT_EQ(-EINVAL, ioctx.operate("foo", &o, NULL)); ASSERT_EQ(0, readioctx.list_snaps("foo", &ss)); ASSERT_EQ(2u, ss.clones.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].cloneid); ASSERT_EQ(1u, ss.clones[0].snaps.size()); ASSERT_EQ(my_snaps[1], ss.clones[0].snaps[0]); ASSERT_EQ(1u, ss.clones[0].overlap.size()); ASSERT_EQ(0u, ss.clones[0].overlap[0].first); ASSERT_EQ((unsigned)bsize*3, ss.clones[0].overlap[0].second); ASSERT_EQ((unsigned)bsize*3, ss.clones[0].size); ASSERT_EQ(head, ss.clones[1].cloneid); ASSERT_EQ(0u, ss.clones[1].snaps.size()); ASSERT_EQ(0u, ss.clones[1].overlap.size()); ASSERT_EQ((unsigned)bsize*4, ss.clones[1].size); ioctx.selfmanaged_snap_rollback("foo", my_snaps[1]); bufferlist bl3; ASSERT_EQ(bsize, ioctx.read("foo", bl3, bsize, 0)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, bsize)); ASSERT_EQ(bsize, ioctx.read("foo", bl3, bsize, bsize)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, bsize)); ASSERT_EQ(bsize, ioctx.read("foo", bl3, bsize, bsize*2)); ASSERT_EQ(0, memcmp(bl3.c_str(), buf, bsize)); ASSERT_EQ(0, ioctx.read("foo", bl3, bsize, bsize*3)); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); readioctx.close(); delete[] buf; delete[] buf2; } TEST_F(LibRadosSnapshotsSelfManagedECPP, Bug11677) { std::vector my_snaps; my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); int bsize = alignment; char *buf = (char *)new char[bsize]; memset(buf, 0xcc, bsize); bufferlist bl1; bl1.append(buf, bsize); ASSERT_EQ(0, ioctx.write("foo", bl1, bsize, 0)); my_snaps.push_back(-2); ASSERT_EQ(0, ioctx.selfmanaged_snap_create(&my_snaps.back())); ::std::reverse(my_snaps.begin(), my_snaps.end()); ASSERT_EQ(0, ioctx.selfmanaged_snap_set_write_ctx(my_snaps[0], my_snaps)); ::std::reverse(my_snaps.begin(), my_snaps.end()); std::unique_ptr op(new librados::ObjectWriteOperation()); op->assert_exists(); op->remove(); ASSERT_EQ(0, ioctx.operate("foo", op.get())); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ASSERT_EQ(0, ioctx.selfmanaged_snap_remove(my_snaps.back())); my_snaps.pop_back(); ioctx.snap_set_read(LIBRADOS_SNAP_HEAD); delete[] buf; }