// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #include "test/librbd/test_fixture.h" #include "test/librbd/test_support.h" #include "include/stringify.h" #include "librbd/ExclusiveLock.h" #include "librbd/ImageState.h" #include "librbd/ImageWatcher.h" #include "librbd/Operations.h" #include "librbd/io/ImageRequestWQ.h" #include "cls/lock/cls_lock_client.h" #include "cls/lock/cls_lock_types.h" #include "cls/rbd/cls_rbd_types.h" #include "librbd/internal.h" #include "test/librados/test.h" #include "test/librados/test_cxx.h" #include #include #include std::string TestFixture::_pool_name; librados::Rados TestFixture::_rados; rados_t TestFixture::_cluster; uint64_t TestFixture::_image_number = 0; std::string TestFixture::_data_pool; TestFixture::TestFixture() : m_image_size(0) { } void TestFixture::SetUpTestCase() { ASSERT_EQ("", connect_cluster(&_cluster)); _pool_name = get_temp_pool_name("test-librbd-"); ASSERT_EQ("", create_one_pool_pp(_pool_name, _rados)); bool created = false; ASSERT_EQ(0, create_image_data_pool(_rados, _data_pool, &created)); if (!_data_pool.empty()) { printf("using image data pool: %s\n", _data_pool.c_str()); if (!created) { _data_pool.clear(); } } } void TestFixture::TearDownTestCase() { rados_shutdown(_cluster); if (!_data_pool.empty()) { ASSERT_EQ(0, _rados.pool_delete(_data_pool.c_str())); } ASSERT_EQ(0, destroy_one_pool_pp(_pool_name, _rados)); } std::string TestFixture::get_temp_image_name() { ++_image_number; return "image" + stringify(_image_number); } void TestFixture::SetUp() { ASSERT_EQ(0, _rados.ioctx_create(_pool_name.c_str(), m_ioctx)); m_cct = reinterpret_cast(m_ioctx.cct()); m_image_name = get_temp_image_name(); m_image_size = 2 << 20; ASSERT_EQ(0, create_image_pp(m_rbd, m_ioctx, m_image_name, m_image_size)); } void TestFixture::TearDown() { unlock_image(); for (std::set::iterator iter = m_ictxs.begin(); iter != m_ictxs.end(); ++iter) { (*iter)->state->close(); } m_ioctx.close(); } int TestFixture::open_image(const std::string &image_name, librbd::ImageCtx **ictx) { *ictx = new librbd::ImageCtx(image_name.c_str(), "", nullptr, m_ioctx, false); m_ictxs.insert(*ictx); return (*ictx)->state->open(0); } int TestFixture::snap_create(librbd::ImageCtx &ictx, const std::string &snap_name) { return ictx.operations->snap_create(cls::rbd::UserSnapshotNamespace(), snap_name.c_str()); } int TestFixture::snap_protect(librbd::ImageCtx &ictx, const std::string &snap_name) { return ictx.operations->snap_protect(cls::rbd::UserSnapshotNamespace(), snap_name.c_str()); } int TestFixture::flatten(librbd::ImageCtx &ictx, librbd::ProgressContext &prog_ctx) { return ictx.operations->flatten(prog_ctx); } int TestFixture::resize(librbd::ImageCtx *ictx, uint64_t size){ librbd::NoOpProgressContext prog_ctx; return ictx->operations->resize(size, true, prog_ctx); } void TestFixture::close_image(librbd::ImageCtx *ictx) { m_ictxs.erase(ictx); ictx->state->close(); } int TestFixture::lock_image(librbd::ImageCtx &ictx, ClsLockType lock_type, const std::string &cookie) { int r = rados::cls::lock::lock(&ictx.md_ctx, ictx.header_oid, RBD_LOCK_NAME, lock_type, cookie, "internal", "", utime_t(), 0); if (r == 0) { m_lock_object = ictx.header_oid; m_lock_cookie = cookie; } return r; } int TestFixture::unlock_image() { int r = 0; if (!m_lock_cookie.empty()) { r = rados::cls::lock::unlock(&m_ioctx, m_lock_object, RBD_LOCK_NAME, m_lock_cookie); m_lock_cookie = ""; } return r; } int TestFixture::acquire_exclusive_lock(librbd::ImageCtx &ictx) { int r = ictx.io_work_queue->write(0, 0, {}, 0); if (r != 0) { return r; } RWLock::RLocker owner_locker(ictx.owner_lock); ceph_assert(ictx.exclusive_lock != nullptr); return ictx.exclusive_lock->is_lock_owner() ? 0 : -EINVAL; }