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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-04 18:04:16 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-04 18:04:16 +0000
commita68fb2d8219f6bccc573009600e9f23e89226a5e (patch)
treed742d35d14ae816e99293d2b01face30e9f3a46b /wsrep-lib/test/server_context_test.cpp
parentInitial commit. (diff)
downloadmariadb-10.6-a68fb2d8219f6bccc573009600e9f23e89226a5e.tar.xz
mariadb-10.6-a68fb2d8219f6bccc573009600e9f23e89226a5e.zip
Adding upstream version 1:10.6.11.upstream/1%10.6.11upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'wsrep-lib/test/server_context_test.cpp')
-rw-r--r--wsrep-lib/test/server_context_test.cpp914
1 files changed, 914 insertions, 0 deletions
diff --git a/wsrep-lib/test/server_context_test.cpp b/wsrep-lib/test/server_context_test.cpp
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+++ b/wsrep-lib/test/server_context_test.cpp
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+/*
+ * Copyright (C) 2018-2019 Codership Oy <info@codership.com>
+ *
+ * This file is part of wsrep-lib.
+ *
+ * Wsrep-lib is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * Wsrep-lib is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with wsrep-lib. If not, see <https://www.gnu.org/licenses/>.
+ */
+
+#include "mock_server_state.hpp"
+
+#include <boost/test/unit_test.hpp>
+
+namespace
+{
+ struct server_fixture_base
+ {
+ server_fixture_base()
+ : server_service(ss)
+ , ss("s1",
+ wsrep::server_state::rm_sync, server_service)
+ , cc(ss,
+ wsrep::client_id(1),
+ wsrep::client_state::m_high_priority)
+ , hps(ss, &cc, false)
+ , ws_handle(wsrep::transaction_id(1), (void*)1)
+ , ws_meta(wsrep::gtid(wsrep::id("1"), wsrep::seqno(1)),
+ wsrep::stid(wsrep::id("1"), wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(0),
+ wsrep::provider::flag::start_transaction |
+ wsrep::provider::flag::commit)
+ , cluster_id("1")
+ , bootstrap_view()
+ , second_view()
+ , third_view()
+ {
+ wsrep::gtid state_id(cluster_id, wsrep::seqno(0));
+ std::vector<wsrep::view::member> members;
+ members.push_back(wsrep::view::member(
+ wsrep::id("s1"), "s1", ""));
+ bootstrap_view = wsrep::view(state_id,
+ wsrep::seqno(1),
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members);
+
+ members.push_back(wsrep::view::member(
+ wsrep::id("s2"), "s2", ""));
+ second_view = wsrep::view(wsrep::gtid(cluster_id, wsrep::seqno(1)),
+ wsrep::seqno(2),
+ wsrep::view::primary,
+ 0, // capabilities
+ 1, // own index
+ 1, // protocol version
+ members);
+
+ members.push_back(wsrep::view::member(
+ wsrep::id("s3"), "s3", ""));
+
+ third_view = wsrep::view(wsrep::gtid(cluster_id, wsrep::seqno(2)),
+ wsrep::seqno(3),
+ wsrep::view::primary,
+ 0, // capabilities
+ 1, // own index
+ 1, // protocol version
+ members);
+
+ cc.open(cc.id());
+ BOOST_REQUIRE(cc.before_command() == 0);
+ }
+ wsrep::mock_server_service server_service;
+ wsrep::mock_server_state ss;
+ wsrep::mock_client cc;
+ wsrep::mock_high_priority_service hps;
+ wsrep::ws_handle ws_handle;
+ wsrep::ws_meta ws_meta;
+ wsrep::id cluster_id;
+ wsrep::view bootstrap_view;
+ wsrep::view second_view;
+ wsrep::view third_view;
+
+ void connect_in_view(const wsrep::view& view)
+ {
+ BOOST_REQUIRE(ss.connect("cluster", "local", "0", false) == 0);
+ ss.on_connect(view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ }
+
+ void prepare_for_sst()
+ {
+ ss.prepare_for_sst();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joiner);
+ }
+
+ void final_view()
+ {
+ BOOST_REQUIRE(ss.state() != wsrep::server_state::s_disconnected);
+ wsrep::view view(wsrep::gtid(), // state_id
+ wsrep::seqno::undefined(), // view seqno
+ wsrep::view::disconnected, // status
+ 0, // capabilities
+ -1, // own_index
+ 0, // protocol ver
+ std::vector<wsrep::view::member>() // members
+ );
+ ss.on_view(view, &hps);
+ }
+
+ void disconnect()
+ {
+ BOOST_REQUIRE(ss.state() != wsrep::server_state::s_disconnecting);
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnecting);
+ final_view();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+ }
+
+ };
+
+ struct applying_server_fixture : server_fixture_base
+ {
+ applying_server_fixture()
+ : server_fixture_base()
+ {
+ ss.mock_connect();
+ }
+ };
+
+ struct sst_first_server_fixture : server_fixture_base
+ {
+ sst_first_server_fixture()
+ : server_fixture_base()
+ {
+ server_service.sst_before_init_ = true;
+ }
+
+ void sst_received_action()
+ {
+ server_service.sync_point_enabled_ = "on_view_wait_initialized";
+ server_service.sync_point_action_ = server_service.spa_initialize;
+ }
+
+ void initialization_failure_action()
+ {
+ server_service.sync_point_enabled_ = "on_view_wait_initialized";
+ server_service.sync_point_action_ =
+ server_service.spa_initialize_error;
+ }
+
+ void clear_sync_point_action()
+ {
+ server_service.sync_point_enabled_ = "";
+ server_service.sync_point_action_ = server_service.spa_none;
+ }
+
+ // Helper method to bootstrap the server with bootstrap view
+ void bootstrap()
+ {
+ connect_in_view(bootstrap_view);
+
+ sst_received_action();
+ ss.on_view(bootstrap_view, &hps);
+ clear_sync_point_action();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+ }
+
+ };
+
+ struct init_first_server_fixture : server_fixture_base
+ {
+ init_first_server_fixture()
+ : server_fixture_base()
+ {
+ server_service.sst_before_init_ = false;
+ }
+
+ // Helper method to bootstrap the server with bootstrap view
+ void bootstrap()
+ {
+ ss.initialized();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_initialized);
+ BOOST_REQUIRE(ss.connect("cluster", "local", "0", false) == 0);
+ ss.on_connect(bootstrap_view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ ss.on_view(bootstrap_view, &hps);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+ }
+ };
+
+ // Helper to pass to BOOST_REQUIRE_EXCEPTION. Always returns true.
+ bool exception_check(const wsrep::runtime_error&) { return true; }
+}
+
+// Test on_apply() method for 1pc
+BOOST_FIXTURE_TEST_CASE(server_state_applying_1pc,
+ applying_server_fixture)
+{
+ char buf[1] = { 1 };
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer(buf, 1)) == 0);
+ const wsrep::transaction& txc(cc.transaction());
+ // ::abort();
+ BOOST_REQUIRE_MESSAGE(
+ txc.state() == wsrep::transaction::s_committed,
+ "Transaction state " << txc.state() << " not committed");
+}
+
+// Test on_apply() method for 2pc
+BOOST_FIXTURE_TEST_CASE(server_state_applying_2pc,
+ applying_server_fixture)
+{
+ hps.do_2pc_ = true;
+ char buf[1] = { 1 };
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer(buf, 1)) == 0);
+ const wsrep::transaction& txc(cc.transaction());
+ BOOST_REQUIRE(txc.state() == wsrep::transaction::s_committed);
+}
+
+// Test on_apply() method for 1pc transaction which
+// fails applying and rolls back
+BOOST_FIXTURE_TEST_CASE(server_state_applying_1pc_rollback,
+ applying_server_fixture)
+{
+ /* make sure default success result is flipped to error_fatal */
+ ss.provider().commit_order_leave_result_ = wsrep::provider::success;
+ hps.fail_next_applying_ = true;
+ char buf[1] = { 1 };
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer(buf, 1)) == 1);
+ const wsrep::transaction& txc(cc.transaction());
+ BOOST_REQUIRE(txc.state() == wsrep::transaction::s_aborted);
+}
+
+// Test on_apply() method for 2pc transaction which
+// fails applying and rolls back
+BOOST_FIXTURE_TEST_CASE(server_state_applying_2pc_rollback,
+ applying_server_fixture)
+{
+ /* make sure default success result is flipped to error_fatal */
+ ss.provider().commit_order_leave_result_ = wsrep::provider::success;
+ hps.do_2pc_ = true;
+ hps.fail_next_applying_ = true;
+ char buf[1] = { 1 };
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer(buf, 1)) == 1);
+ const wsrep::transaction& txc(cc.transaction());
+ BOOST_REQUIRE(txc.state() == wsrep::transaction::s_aborted);
+}
+
+BOOST_FIXTURE_TEST_CASE(server_state_streaming, applying_server_fixture)
+{
+ ws_meta = wsrep::ws_meta(wsrep::gtid(wsrep::id("1"), wsrep::seqno(1)),
+ wsrep::stid(wsrep::id("1"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(0),
+ wsrep::provider::flag::start_transaction);
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ ws_meta.server_id(), ws_meta.transaction_id()));
+ ws_meta = wsrep::ws_meta(wsrep::gtid(wsrep::id("1"), wsrep::seqno(2)),
+ wsrep::stid(wsrep::id("1"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(1),
+ 0);
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer("1", 1)) == 0);
+ ws_meta = wsrep::ws_meta(wsrep::gtid(wsrep::id("1"), wsrep::seqno(2)),
+ wsrep::stid(wsrep::id("1"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(1),
+ wsrep::provider::flag::commit);
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, ws_meta,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ ws_meta.server_id(), ws_meta.transaction_id()) == 0);
+}
+
+
+BOOST_AUTO_TEST_CASE(server_state_state_strings)
+{
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_disconnected) == "disconnected");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_initializing) == "initializing");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_initialized) == "initialized");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_connected) == "connected");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_joiner) == "joiner");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_joined) == "joined");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_donor) == "donor");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_synced) == "synced");
+ BOOST_REQUIRE(wsrep::to_string(
+ wsrep::server_state::s_disconnecting) == "disconnecting");
+}
+
+///////////////////////////////////////////////////////////////////////////////
+// Test cases for SST first //
+///////////////////////////////////////////////////////////////////////////////
+
+BOOST_FIXTURE_TEST_CASE(server_state_sst_first_boostrap,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+
+BOOST_FIXTURE_TEST_CASE(server_state_sst_first_join_with_sst,
+ sst_first_server_fixture)
+{
+ connect_in_view(second_view);
+ prepare_for_sst();
+ sst_received_action();
+ // Mock server service get_view() gets view from logged_view_.
+ // Get_view() is called from sst_received(). This emulates the
+ // case where SST contains the view in which SST happens.
+ server_service.logged_view(second_view);
+ server_service.position(wsrep::gtid(cluster_id, wsrep::seqno(2)));
+ ss.sst_received(cc, 0);
+ clear_sync_point_action();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+BOOST_FIXTURE_TEST_CASE(server_state_sst_first_join_with_ist,
+ sst_first_server_fixture)
+{
+ connect_in_view(second_view);
+ // Mock server service get_view() gets view from logged_view_.
+ // Get_view() is called from sst_received(). This emulates the
+ // case where the view is stored in stable storage.
+ server_service.logged_view(second_view);
+ sst_received_action();
+ ss.on_view(second_view, &hps);
+ clear_sync_point_action();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_view(third_view, &hps);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+
+// Cycle from synced state to disconnected and back to synced. Server
+// storage engines remain initialized.
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_synced_disconnected_synced_no_sst,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnecting);
+ final_view();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+
+ // Connect back as a sole member in the cluster
+ BOOST_REQUIRE(ss.connect("cluster", "local", "0", false) == 0);
+ // @todo: s_connecting state would be good to have
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+ // Server state must keep the initialized state
+ BOOST_REQUIRE(ss.is_initialized() == true);
+ std::vector<wsrep::view::member> members;
+ members.push_back(wsrep::view::member(wsrep::id("s1"), "name", ""));
+ wsrep::view view(wsrep::gtid(cluster_id, wsrep::seqno(1)),
+ wsrep::seqno(2),
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members);
+ ss.on_connect(view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ // As storage engines have been initialized, there should not be
+ // any reason to wait for initialization. State should jump directly
+ // to s_joined after handling the view.
+ ss.on_view(view, &hps);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+//
+// Error after connecting to cluster. This scenario may happen if SST
+// request preparation fails.
+//
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_error_on_connect,
+ sst_first_server_fixture)
+{
+ connect_in_view(second_view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ disconnect();
+}
+
+// Error during SST.
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_error_on_joiner,
+ sst_first_server_fixture)
+{
+ connect_in_view(second_view);
+ ss.prepare_for_sst();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joiner);
+ server_service.position(wsrep::gtid::undefined());
+ ss.sst_received(cc, 1);
+ disconnect();
+}
+
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_error_on_initializing,
+ sst_first_server_fixture)
+{
+ connect_in_view(second_view);
+ ss.prepare_for_sst();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joiner);
+ initialization_failure_action();
+ server_service.position(wsrep::gtid(second_view.state_id()));
+ BOOST_REQUIRE_EXCEPTION(ss.sst_received(cc, 0),
+ wsrep::runtime_error, exception_check);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_initializing);
+ BOOST_REQUIRE_EXCEPTION(ss.on_view(second_view, &hps),
+ wsrep::runtime_error, exception_check);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_initializing);
+ disconnect();
+}
+
+// Error or shutdown happens during catchup phase after receiving
+// SST successfully.
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_error_on_joined,
+ sst_first_server_fixture)
+{
+ connect_in_view(second_view);
+ ss.prepare_for_sst();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joiner);
+ sst_received_action();
+ // Mock server service get_view() gets view from logged_view_.
+ // Get_view() is called from sst_received(). This emulates the
+ // case where SST contains the view in which SST happens.
+ server_service.logged_view(second_view);
+ server_service.position(wsrep::gtid(cluster_id, wsrep::seqno(2)));
+ ss.sst_received(cc, 0);
+ clear_sync_point_action();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+}
+
+// Error or shutdown happens when donating a snapshot.
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_error_on_donor,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ ss.start_sst("", wsrep::gtid(cluster_id, wsrep::seqno(2)), false);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_donor);
+ disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+}
+
+///////////////////////////////////////////////////////////////////////////////
+// Test cases for init first //
+///////////////////////////////////////////////////////////////////////////////
+
+BOOST_FIXTURE_TEST_CASE(server_state_init_first_boostrap,
+ init_first_server_fixture)
+{
+ bootstrap();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+BOOST_FIXTURE_TEST_CASE(server_state_init_first_join_with_sst,
+ init_first_server_fixture)
+{
+ ss.initialized();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_initialized);
+ connect_in_view(second_view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ prepare_for_sst();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joiner);
+ server_service.logged_view(second_view);
+ server_service.position(wsrep::gtid(cluster_id, wsrep::seqno(2)));
+ ss.sst_received(cc, 0);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+BOOST_FIXTURE_TEST_CASE(server_state_init_first_join_with_ist,
+ init_first_server_fixture)
+{
+ ss.initialized();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_initialized);
+ connect_in_view(second_view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ server_service.logged_view(second_view);
+ ss.on_view(second_view, &hps);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_view(third_view, &hps);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+
+// Cycle from synced state to disconnected and back to synced. Server
+// storage engines remain initialized.
+BOOST_FIXTURE_TEST_CASE(
+ server_state_init_first_synced_disconnected_synced_no_sst,
+ init_first_server_fixture)
+{
+ bootstrap();
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnecting);
+ final_view();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+
+ // Connect back as a sole member in the cluster
+ BOOST_REQUIRE(ss.connect("cluster", "local", "0", false) == 0);
+ // @todo: s_connecting state would be good to have
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+ // Server state must keep the initialized state
+ BOOST_REQUIRE(ss.is_initialized() == true);
+ std::vector<wsrep::view::member> members;
+ members.push_back(wsrep::view::member(wsrep::id("s1"), "name", ""));
+ wsrep::view view(wsrep::gtid(cluster_id, wsrep::seqno(1)),
+ wsrep::seqno(2),
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members);
+ ss.on_connect(view);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_connected);
+ // As storage engines have been initialized, there should not be
+ // any reason to wait for initialization. State should jump directly
+ // to s_joined after handling the view.
+ ss.on_view(view, &hps);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+/////////////////////////////////////////////////////////////////////////////
+// Donor state transitions //
+/////////////////////////////////////////////////////////////////////////////
+
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_donate_success,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+ ss.start_sst("", wsrep::gtid(cluster_id, wsrep::seqno(2)), false);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_donor);
+ ss.sst_sent(wsrep::gtid(cluster_id, wsrep::seqno(2)), 0);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_donate_error,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+ ss.start_sst("", wsrep::gtid(cluster_id, wsrep::seqno(2)), false);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_donor);
+ ss.sst_sent(wsrep::gtid(cluster_id, wsrep::seqno(2)), 1);
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_joined);
+ ss.on_sync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+/////////////////////////////////////////////////////////////////////////////
+// Pause/Resume and Desync/Resync //
+/////////////////////////////////////////////////////////////////////////////
+
+BOOST_FIXTURE_TEST_CASE(
+ server_state_sst_first_desync_and_pause_resync_and_resume,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ ss.desync_and_pause();
+ // @todo: Should we have here different state than synced
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+ ss.resume_and_resync();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_synced);
+}
+
+/////////////////////////////////////////////////////////////////////////////
+// Disconnect //
+/////////////////////////////////////////////////////////////////////////////
+
+BOOST_FIXTURE_TEST_CASE(
+ server_state_disconnect,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnecting);
+ final_view();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+}
+
+// This test case verifies that the disconnect can be initiated
+// concurrently by several callers. This may happen in failure situations
+// where provider shutdown causes cascading failures and the failing operations
+// try to disconnect the provider.
+BOOST_FIXTURE_TEST_CASE(
+ server_state_disconnect_twice,
+ sst_first_server_fixture)
+{
+ bootstrap();
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnecting);
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnecting);
+ final_view();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+ ss.disconnect();
+ BOOST_REQUIRE(ss.state() == wsrep::server_state::s_disconnected);
+}
+
+/////////////////////////////////////////////////////////////////////////////
+// Orphaned SR //
+/////////////////////////////////////////////////////////////////////////////
+
+// Test the behavior of server_state::close_orphaned_sr_transactions().
+// In this test we check the scenario where we initially have 3 nodes in
+// the cluster (s1, s2, s3), and this server_state delivers one streaming
+// fragment from s2 and s3 each, followed by view changes:
+//
+// view 1: primary (s1, s2, s3)
+// view 2: primary (s1, s2)
+// view 3: non-primary (s1)
+// view 4: non-primary (s1, s3)
+// view 5: primary (s1, s2, s3)
+//
+// We expect that on view 2, transaction originated from s3 is considered
+// orphaned, so it should be rolled back.
+// Transaction from s2 should never be considered orphaned in this scenario,
+// we expect it to survive until the end of the test. That's because
+// transactions are rolled back in primary views only, and because s2
+// is member of all primary views in this scenario.
+BOOST_FIXTURE_TEST_CASE(server_state_close_orphaned_transactions,
+ sst_first_server_fixture)
+{
+ connect_in_view(third_view);
+ server_service.logged_view(third_view);
+ sst_received_action();
+ ss.on_view(third_view, &hps);
+
+ // initially we have members (s1, s2, s3)
+ std::vector<wsrep::view::member> members(ss.current_view().members());
+
+ // apply a fragment coming from s2
+ wsrep::ws_meta meta_s2(wsrep::gtid(wsrep::id("s2"), wsrep::seqno(1)),
+ wsrep::stid(wsrep::id("s2"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(1),
+ wsrep::provider::flag::start_transaction);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_s2,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+
+ // apply a fragment coming from s3
+ wsrep::ws_meta meta_s3(wsrep::gtid(wsrep::id("s3"), wsrep::seqno(2)),
+ wsrep::stid(wsrep::id("s3"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(2),
+ wsrep::provider::flag::start_transaction);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_s3,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+ // s3 drops out of the cluster, deliver primary view (s1, s2)
+ wsrep::view::member s3(members.back());
+ members.pop_back();
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno() + 1,
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members), &hps);
+
+ // transaction from s2 is still present
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+ // transaction from s3 is gone
+ BOOST_REQUIRE(not ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+ // s2 drops out of the cluster, deliver non-primary view (s1)
+ wsrep::view::member s2(members.back());
+ members.pop_back();
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno(),
+ wsrep::view::non_primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members), &hps);
+
+ // no streaming appliers are closed on non-primary view,
+ // so transaction from s2 is still present
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+
+ // s3 comes back, deliver non-primary view (s1, s3)
+ members.push_back(s3);
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno() + 1,
+ wsrep::view::non_primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members), &hps);
+
+ // transaction s2 is still present after non-primary view
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+
+ // s2 comes back, deliver primary-view (s1, s2, s3)
+ members.push_back(s2);
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno() + 1,
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members), &hps);
+
+ // finally, transaction from s2 is still present (part of primary view)
+ // and transaction from s3 is gone
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+ BOOST_REQUIRE(not ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+ // cleanup
+ wsrep::ws_meta meta_commit_s2(wsrep::gtid(wsrep::id("s2"), wsrep::seqno(3)),
+ wsrep::stid(wsrep::id("s2"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(3),
+ wsrep::provider::flag::commit);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_commit_s2,
+ wsrep::const_buffer("1", 1)) == 0);
+
+ BOOST_REQUIRE(not ss.find_streaming_applier(
+ meta_commit_s2.server_id(), meta_commit_s2.transaction_id()));
+}
+
+
+// Test the case where two consecutive primary views with the
+// same members are delivered (provider may do so).
+// Expect SR transactions to be rolled back on equal consecutive views
+BOOST_FIXTURE_TEST_CASE(server_state_equal_consecutive_views,
+ sst_first_server_fixture)
+{
+ connect_in_view(third_view);
+ server_service.logged_view(third_view);
+ sst_received_action();
+ ss.on_view(third_view, &hps);
+
+ // apply a fragment coming from s2
+ wsrep::ws_meta meta_s2(wsrep::gtid(wsrep::id("s2"), wsrep::seqno(1)),
+ wsrep::stid(wsrep::id("s2"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(1),
+ wsrep::provider::flag::start_transaction);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_s2,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+
+ // apply a fragment coming from s3
+ wsrep::ws_meta meta_s3(wsrep::gtid(wsrep::id("s3"), wsrep::seqno(2)),
+ wsrep::stid(wsrep::id("s3"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(2),
+ wsrep::provider::flag::start_transaction);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_s3,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+ // deliver primary view with the same members (s1, s2, s3)
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno() + 1,
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ ss.current_view().members()), &hps);
+
+ // transaction from s2 and s3 are gone
+ BOOST_REQUIRE(not ss.find_streaming_applier(
+ meta_s2.server_id(), meta_s2.transaction_id()));
+ BOOST_REQUIRE(not ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+}
+
+// Verify that prepared XA transactions are not rolled back
+// by close_orphaned_transactions()
+BOOST_FIXTURE_TEST_CASE(server_state_xa_not_orphaned,
+ sst_first_server_fixture)
+{
+ connect_in_view(third_view);
+ server_service.logged_view(third_view);
+ sst_received_action();
+ ss.on_view(third_view, &hps);
+
+ // initially we have members (s1, s2, s3)
+ std::vector<wsrep::view::member> members(ss.current_view().members());
+
+
+ wsrep::ws_meta meta_s3(wsrep::gtid(wsrep::id("s3"), wsrep::seqno(1)),
+ wsrep::stid(wsrep::id("s3"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(1),
+ wsrep::provider::flag::start_transaction |
+ wsrep::provider::flag::prepare);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_s3,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+
+ // s3 drops out of the cluster, deliver primary view (s1, s2)
+ wsrep::view::member s3(members.back());
+ members.pop_back();
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno() + 1,
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members), &hps);
+
+ // transaction from s3 is still present
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+ // s3 comes back, deliver primary view (s1, s2, s3)
+ members.push_back(s3);
+ ss.on_view(wsrep::view(ss.current_view().state_id(),
+ ss.current_view().view_seqno() + 1,
+ wsrep::view::primary,
+ 0, // capabilities
+ 0, // own index
+ 1, // protocol version
+ members), &hps);
+
+ // transaction from s3 is still present
+ BOOST_REQUIRE(ss.find_streaming_applier(
+ meta_s3.server_id(), meta_s3.transaction_id()));
+
+ // cleanup
+ wsrep::ws_meta meta_commit_s3(wsrep::gtid(wsrep::id("s3"), wsrep::seqno(3)),
+ wsrep::stid(wsrep::id("s3"),
+ wsrep::transaction_id(1),
+ wsrep::client_id(1)),
+ wsrep::seqno(3),
+ wsrep::provider::flag::commit);
+
+ BOOST_REQUIRE(ss.on_apply(hps, ws_handle, meta_commit_s3,
+ wsrep::const_buffer("1", 1)) == 0);
+ BOOST_REQUIRE(not ss.find_streaming_applier(
+ meta_commit_s3.server_id(), meta_commit_s3.transaction_id()));
+}