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oceanbase/mittest/logservice/env/ob_simple_log_cluster_env.cpp
BinChenn 5d7aba2087 [CP] [fix] fix some error logs
2023-07-04 08:47:32 +00:00

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/**
* Copyright (c) 2021 OceanBase
* OceanBase CE is licensed under Mulan PubL v2.
* You can use this software according to the terms and conditions of the Mulan PubL v2.
* You may obtain a copy of Mulan PubL v2 at:
* http://license.coscl.org.cn/MulanPubL-2.0
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
* See the Mulan PubL v2 for more details.
*/
#include <cstdio>
#include <gtest/gtest.h>
#include <signal.h>
#include <thread>
#define private public
#include "ob_simple_log_cluster_env.h"
#include "ob_simple_log_cluster_testbase.h"
#include "ob_simple_log_server.h"
#include "common/ob_member_list.h"
#include "common/ob_role.h"
#include "lib/ob_define.h"
#include "lib/ob_errno.h"
#include "lib/oblog/ob_log_module.h"
#include "lib/utility/ob_macro_utils.h"
#include "logservice/ob_log_handler.h"
#include "logservice/palf/lsn.h"
#include "share/scn.h"
#include "logservice/palf/log_define.h"
#include "logservice/palf/palf_handle.h"
#include "logservice/palf/palf_base_info.h"
#include "logservice/palf/palf_handle_impl_guard.h"
#include "logservice/palf/palf_iterator.h"
#include "logservice/palf/palf_options.h"
#include "logservice/palf_handle_guard.h"
#include "logservice/ob_log_base_header.h"
#include "logservice/ob_log_service.h"
#undef private
namespace oceanbase
{
using namespace logservice;
using namespace palf;
namespace unittest
{
void init_gtest_output(std::string &gtest_log_name)
{
// 判断是否处于Farm中
char *mit_network_start_port_env = getenv("mit_network_start_port");
char *mit_network_port_num_env = getenv("mit_network_port_num");
if (mit_network_start_port_env != nullptr && mit_network_port_num_env != nullptr) {
std::string gtest_file_name = gtest_log_name;
int fd = open(gtest_file_name.c_str(), O_RDWR|O_CREAT, 0666);
if (fd == 0) {
ob_abort();
}
dup2(fd, STDOUT_FILENO);
dup2(fd, STDERR_FILENO);
}
}
PalfHandleImplGuard::PalfHandleImplGuard() : palf_id_(),
palf_handle_impl_(NULL),
palf_env_impl_(NULL)
{
}
PalfHandleImplGuard::~PalfHandleImplGuard()
{
reset();
}
bool PalfHandleImplGuard::is_valid() const
{
return true == is_valid_palf_id(palf_id_) && NULL != palf_handle_impl_ && NULL != palf_env_impl_;
}
void PalfHandleImplGuard::reset()
{
if (NULL != palf_handle_impl_ && NULL != palf_env_impl_) {
palf_env_impl_->revert_palf_handle_impl(palf_handle_impl_);
}
palf_handle_impl_ = NULL;
palf_env_impl_ = NULL;
palf_id_ = -1;
};
PalfHandleLiteGuard::PalfHandleLiteGuard() : palf_id_(),
palf_handle_lite_(NULL),
palf_env_lite_(NULL)
{
}
PalfHandleLiteGuard::~PalfHandleLiteGuard()
{
reset();
}
bool PalfHandleLiteGuard::is_valid() const
{
return true == is_valid_palf_id(palf_id_) && NULL != palf_handle_lite_ && NULL != palf_env_lite_;
}
void PalfHandleLiteGuard::reset()
{
if (NULL != palf_handle_lite_ && NULL != palf_env_lite_) {
palf_env_lite_->revert_palf_handle_impl(palf_handle_lite_);
}
palf_handle_lite_ = NULL;
palf_env_lite_ = NULL;
palf_id_ = -1;
};
int generate_data(char *&buf, const int buf_len, int &real_data_size, const int wanted_data_size = 0)
{
int ret = OB_SUCCESS;
//random from NO_NEED_BARRIER(3), PRE_BARRIER(2), FULL_BARRIER(1)
int i = rand() % 3 + 1;
enum ObReplayBarrierType barrier_type;
switch (i)
{
case 1 :
barrier_type = ObReplayBarrierType::STRICT_BARRIER;
break;
case 2:
barrier_type = ObReplayBarrierType::PRE_BARRIER;
break;
case 3:
barrier_type = ObReplayBarrierType::NO_NEED_BARRIER;
break;
default:
barrier_type = ObReplayBarrierType::STRICT_BARRIER;
break;
}
logservice::ObLogBaseHeader header(logservice::TRANS_SERVICE_LOG_BASE_TYPE, barrier_type, rand());
const int header_size = header.get_serialize_size();
constexpr int MAX_SIZE = 100 * 1024;
constexpr int UNIT_STR_LENGTH = 1 * 1024;
int64_t pos = 0;
ObTimeGuard guard("generate_data", 0);
int payload_size = 0;
if (buf_len < wanted_data_size) {
ret = OB_BUF_NOT_ENOUGH;
} else if (OB_FAIL(header.serialize(buf, buf_len, pos))) {
CLOG_LOG(ERROR, "header serialize failed", K(header), KP(buf), K(buf_len), K(pos));
} else if (wanted_data_size <= 0) {
// generate random length data
payload_size = std::min(std::max(rand() % MAX_SIZE, 20 * 1024), buf_len - header_size);
} else {
// generate data which length is wanted_data_size
payload_size = wanted_data_size - header_size;
}
if (OB_SUCC(ret)) {
real_data_size = payload_size + header_size;
// generate random data as 1KB unit
std::mt19937 generator{std::random_device{}()};
std::uniform_int_distribution<int> distribution{'a', 'z'};
std::string rand_str_unit(UNIT_STR_LENGTH, '\0');
for(auto& dis: rand_str_unit) {
dis = distribution(generator);
}
guard.click("random");
std::string rand_str(payload_size, '\0');
int cnt = 0;
int char_idx = 0;
for (auto& dis: rand_str) {
dis = rand_str_unit[cnt++ % UNIT_STR_LENGTH];
}
memcpy(buf+pos, rand_str.c_str(), payload_size);
guard.click("fillbuf");
CLOG_LOG(INFO, "generate_data finish", K(ret), K(payload_size), K(wanted_data_size), K(real_data_size), K(pos), KP(buf), K(guard));
}
return ret;
}
int64_t ObSimpleLogClusterTestEnv::palf_id_ = 1;
ObSimpleLogClusterTestEnv::ObSimpleLogClusterTestEnv()
: ObSimpleLogClusterTestBase(), prev_leader_idx_(0)
{
}
ObSimpleLogClusterTestEnv::~ObSimpleLogClusterTestEnv()
{
}
void ObSimpleLogClusterTestEnv::SetUp()
{
CLOG_LOG(INFO, "ObSimpleLogClusterTestEnv start delete instance", K(palf_id_));
delete_paxos_group(palf_id_);
}
void ObSimpleLogClusterTestEnv::TearDown()
{
CLOG_LOG(INFO, "ObSimpleLogClusterTestEnv end delete instance", K(palf_id_));
delete_paxos_group(palf_id_);
}
int ObSimpleLogClusterTestEnv::delete_paxos_group(const int64_t id)
{
int ret = OB_SUCCESS;
auto cluster = get_cluster();
for (auto svr : get_cluster()) {
ObTenantEnv::set_tenant(svr->get_tenant_base());
auto palf_env = svr->get_palf_env();
if (OB_ISNULL(palf_env)) {
ret = OB_ERR_UNEXPECTED;
CLOG_LOG(WARN, "unexpected error", K(ret), KP(svr), K(svr->is_arb_server()));
} else if (OB_FAIL(palf_env->remove_palf_handle_impl(id))) {
CLOG_LOG(WARN, "remove_ls failed", K(ret));
break;
}
svr->remove_mock_election(id);
svr->revert_palf_env(palf_env);
}
return ret;
}
int ObSimpleLogClusterTestEnv::create_paxos_group(const int64_t id, int64_t &leader_idx, PalfHandleImplGuard &leader)
{
PalfBaseInfo palf_base_info;
palf_base_info.generate_by_default();
const bool with_mock_election = false;
return create_paxos_group(id, palf_base_info, NULL, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group(const int64_t id, palf::PalfLocationCacheCb *loc_cb, int64_t &leader_idx, PalfHandleImplGuard &leader)
{
PalfBaseInfo palf_base_info;
palf_base_info.generate_by_default();
const bool with_mock_election = false;
return create_paxos_group(id, palf_base_info, loc_cb, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group(const int64_t id, const share::SCN &create_scn, int64_t &leader_idx, PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
PalfBaseInfo palf_base_info;
palf_base_info.generate_by_default();
palf_base_info.prev_log_info_.scn_ = create_scn;
const bool with_mock_election = false;
return create_paxos_group(id, palf_base_info, NULL, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group(const int64_t id, const LSN &lsn, int64_t &leader_idx, PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
PalfBaseInfo palf_base_info;
palf_base_info.generate_by_default();
palf_base_info.curr_lsn_ = lsn;
const bool with_mock_election = false;
return create_paxos_group(id, palf_base_info, NULL, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group(const int64_t id, const PalfBaseInfo &palf_base_info, int64_t &leader_idx, PalfHandleImplGuard &leader)
{
const bool with_mock_election = false;
return create_paxos_group(id, palf_base_info, NULL, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group(const int64_t id,
const PalfBaseInfo &palf_base_info,
palf::PalfLocationCacheCb *loc_cb,
int64_t &leader_idx,
const bool with_mock_election,
PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
for (auto svr : get_cluster()) {
ObTenantEnv::set_tenant(svr->get_tenant_base());
IPalfHandleImpl* handle = NULL;
MockElection *mock_election = NULL;
share::ObLSID sid(id);
if (svr->get_palf_env() == NULL) {
ret = OB_ERR_UNEXPECTED;
CLOG_LOG(ERROR, "svr is null", KPC(svr));
} else if (OB_FAIL(svr->get_palf_env()->create_palf_handle_impl(id, palf::AccessMode::APPEND, palf_base_info, handle))) {
CLOG_LOG(WARN, "create_palf_handle_impl failed", K(ret), K(id), KPC(svr));
break;
} else {
if (with_mock_election) {
if (OB_FAIL(svr->create_mock_election(id, mock_election))) {
CLOG_LOG(WARN, "create_mock_election failed", K(ret), K(id), KPC(svr));
break;
} else {
common::ObAddr leader_addr;
const ObMemberList &member_list = get_member_list();
member_list.get_server_by_index(0, leader_addr);
PalfHandleImpl *palf_handle_impl = dynamic_cast<PalfHandleImpl*>(handle);
mock_election->set_leader(leader_addr, 1);
palf_handle_impl->state_mgr_.election_ = mock_election;
palf_handle_impl->config_mgr_.election_ = mock_election;
}
}
handle->set_location_cache_cb(loc_cb);
const ObMemberList &member_list = get_member_list();
handle->set_initial_member_list(member_list, member_list.get_member_number());
handle->set_paxos_member_region_map(get_member_region_map());
CLOG_LOG(INFO, "set_initial_member_list success", K(id), "addr", svr->get_addr(), K(member_list));
}
if (NULL != handle) {
svr->get_palf_env()->revert_palf_handle_impl(handle);
}
}
if (OB_SUCC(ret)) {
ret = get_leader(id, leader, leader_idx);
ObTenantEnv::set_tenant(get_cluster()[leader_idx]->get_tenant_base());
}
return ret;
}
int ObSimpleLogClusterTestEnv::create_paxos_group_with_mock_election(
const int64_t id,
int64_t &leader_idx,
PalfHandleImplGuard &leader)
{
PalfBaseInfo palf_base_info;
palf_base_info.generate_by_default();
const bool with_mock_election = true;
return create_paxos_group(id, palf_base_info, NULL, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group_with_arb_mock_election(
const int64_t id,
int64_t &arb_replica_idx,
int64_t &leader_idx,
PalfHandleImplGuard &leader)
{
const bool with_mock_election = true;
return create_paxos_group_with_arb(id, arb_replica_idx, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group_with_arb(
const int64_t id,
int64_t &arb_replica_idx,
int64_t &leader_idx,
PalfHandleImplGuard &leader)
{
const bool with_mock_election = false;
return create_paxos_group_with_arb(id, arb_replica_idx, leader_idx, with_mock_election, leader);
}
int ObSimpleLogClusterTestEnv::create_paxos_group_with_arb(
const int64_t id,
int64_t &arb_replica_idx,
int64_t &leader_idx,
const bool with_mock_election,
PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
PalfBaseInfo palf_base_info;
palf_base_info.generate_by_default();
// if member_cnt_ is 3, arb_replica_idx should be 0,1,2
ObMemberList member_list = get_member_list();
ObMember arb_replica;
arb_replica_idx = 2;
for (int i = 0; i < get_cluster().size(); i++) {
auto svr = get_cluster()[i];
if (svr->is_arb_server()) {
arb_replica_idx = i;
}
}
if (-1 == arb_replica_idx) {
ret = OB_NOT_SUPPORTED;
PALF_LOG(ERROR, "there is not any arb server");
} else if (OB_FAIL(member_list.get_member_by_index(arb_replica_idx, arb_replica))) {
PALF_LOG(ERROR, "get_member_by_index failed", K(ret), K(arb_replica_idx));
} else {
member_list.remove_member(arb_replica);
for (auto svr : get_cluster()) {
ObTenantEnv::set_tenant(svr->get_tenant_base());
IPalfHandleImpl *handle = NULL;
MockElection *mock_election = NULL;
share::ObLSID sid(id);
if (svr->get_palf_env() == NULL) {
ret = OB_ERR_UNEXPECTED;
CLOG_LOG(ERROR, "svr is null", KPC(svr));
break;
} else if (OB_FAIL(svr->get_palf_env()->create_palf_handle_impl(id, palf::AccessMode::APPEND, palf_base_info, handle))) {
CLOG_LOG(WARN, "create_palf_handle_impl failed", K(ret), K(id), KPC(svr));
} else if (!svr->is_arb_server() && OB_FAIL(handle->set_initial_member_list(member_list, arb_replica, get_member_cnt()-1))) {
CLOG_LOG(ERROR, "set_initial_member_list failed", K(ret), K(id), KPC(svr));
} else {
common::ObAddr leader_addr;
member_list.get_server_by_index(0, leader_addr);
if (with_mock_election) {
if (OB_FAIL(svr->create_mock_election(id, mock_election))) {
CLOG_LOG(WARN, "create_mock_election failed", K(ret), K(id), KPC(svr));
break;
} else if (false == svr->is_arb_server()) {
PalfHandleImpl *palf_handle_impl = dynamic_cast<PalfHandleImpl*>(handle);
mock_election->set_leader(leader_addr, 1);
palf_handle_impl->state_mgr_.election_ = mock_election;
palf_handle_impl->config_mgr_.election_ = mock_election;
} else {
palflite::PalfHandleLite *palf_handle_lite = dynamic_cast<palflite::PalfHandleLite*>(handle);
mock_election->set_leader(leader_addr, 1);
palf_handle_lite->state_mgr_.election_ = mock_election;
palf_handle_lite->config_mgr_.election_ = mock_election;
}
}
handle->set_paxos_member_region_map(get_member_region_map());
CLOG_LOG(INFO, "set_initial_member_list success", K(member_list));
}
if (NULL == svr->get_palf_env()) {
ret = OB_ERR_UNEXPECTED;
ObSimpleLogServer *log_p = dynamic_cast<ObSimpleLogServer*>(svr);
ObSimpleArbServer *arb_p = dynamic_cast<ObSimpleArbServer*>(svr);
CLOG_LOG(ERROR, "palf env is nullptr", K(ret), K(svr->is_arb_server()), KPC(svr), KP(log_p), K(arb_p), KPC(log_p), KPC(arb_p));
} else {
}
if (NULL != handle) {
svr->get_palf_env()->revert_palf_handle_impl(handle);
}
}
if (OB_SUCC(ret)) {
ret = get_leader(id, leader, leader_idx);
ObTenantEnv::set_tenant(get_cluster()[leader_idx]->get_tenant_base());
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::update_disk_options(const int64_t server_id, const int64_t file_block_num)
{
int ret = OB_SUCCESS;
const int64_t MB = 1024 * 1024;
PalfOptions opts;
opts.disk_options_.log_disk_usage_limit_size_ = file_block_num * PALF_PHY_BLOCK_SIZE;
opts.disk_options_.log_disk_utilization_threshold_ = 80;
opts.disk_options_.log_disk_utilization_limit_threshold_ = 95;
auto cluster = get_cluster();
if (server_id >= 0 && server_id < cluster.size()) {
ObTenantEnv::set_tenant(cluster[server_id]->get_tenant_base());
auto srv = cluster[server_id];
if (true == srv->is_arb_server()) {
ret = OB_NOT_SUPPORTED;
} else {
auto palf_env_impl = dynamic_cast<PalfEnvImpl*>(srv->get_palf_env());
ret = palf_env_impl->update_options(opts);
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::restart_paxos_groups()
{
int ret = OB_SUCCESS;
int64_t node_idx = get_node_idx_base();
int64_t finished_cnt = 0;
auto func = [&finished_cnt, this](const int64_t node_idx, ObISimpleLogServer *svr) -> int{
int ret = OB_SUCCESS;
ObTenantEnv::set_tenant(svr->get_tenant_base());
if (OB_FAIL(svr->simple_restart(get_test_name(), node_idx))) {
PALF_LOG(WARN, "simple_restart failed", K(ret), K(node_idx));
} else {
ATOMIC_INC(&finished_cnt);
PALF_LOG(INFO, "restart_paxos_groups success", K(node_idx), K(svr->get_addr()), KPC(svr));
}
return ret;
};
std::vector<std::thread> threads;
for (auto svr : get_cluster()) {
threads.emplace_back(std::thread(func, node_idx, svr));
node_idx++;
}
for (auto &thread: threads) {
thread.join();
}
if (finished_cnt != get_cluster().size()) {
ret = OB_ERR_UNEXPECTED;
CLOG_LOG(ERROR, "restart failed", K(ret), K(finished_cnt));
} else {
ObTenantEnv::set_tenant(get_cluster()[finished_cnt-1]->get_tenant_base());
}
return ret;
}
int ObSimpleLogClusterTestEnv::restart_server(const int64_t server_id)
{
int ret = OB_SUCCESS;
auto cluster = get_cluster();
if (server_id >= 0 && server_id < cluster.size()) {
const auto svr = cluster[server_id];
ObTenantEnv::set_tenant(svr->get_tenant_base());
if (OB_FAIL(svr->simple_restart(get_test_name(), get_node_idx_base() + server_id))) {
PALF_LOG(WARN, "simple_restart failed", K(ret), K(server_id));
} else {
PALF_LOG(INFO, "restart_paxos_groups success", K(svr->get_addr()));
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::remove_dir()
{
int ret = OB_SUCCESS;
for (auto svr : get_cluster()) {
char cmd[1024]; snprintf(cmd, 1024, "rm -rf %s/*", svr->get_clog_dir().c_str());
system(cmd);
}
return ret;
}
int ObSimpleLogClusterTestEnv::get_log_pool(const int64_t leader_idx, ObServerLogBlockMgr *&pool)
{
int ret = OB_SUCCESS;
auto cluster = get_cluster();
pool = dynamic_cast<ObServerLogBlockMgr*>(cluster[leader_idx]->get_block_pool());
return ret;
}
int ObSimpleLogClusterTestEnv::get_leader(const int64_t id, PalfHandleImplGuard &leader, int64_t &leader_idx)
{
int ret = OB_SUCCESS;
leader.reset();
leader_idx = 0;
do {
auto cluster = get_cluster();
for (int i = 0; i < cluster.size(); i++) {
IPalfHandleImpl *ipalf_handle_impl = NULL;
auto svr = cluster[i];
bool is_pending_state = false;
ObRole role = LEADER;
int64_t epoch;
if (false == svr->is_valid()) {
ret = OB_INVALID_ARGUMENT;
PALF_LOG(WARN, "svr is invalid", K(ret), KPC(svr));
} else if (OB_FAIL(svr->get_palf_env()->get_palf_handle_impl(id, ipalf_handle_impl))) {
PALF_LOG(WARN, "create_palf_handle_impl failed", K(ret), K(id), KPC(svr));
} else if (OB_FAIL(ipalf_handle_impl->get_role(role, epoch, is_pending_state))) {
PALF_LOG(WARN, "get_role failed", K(ret));
} else if (role == LEADER
&& false == is_pending_state) {
leader_idx = i;
leader.palf_handle_impl_ = dynamic_cast<PalfHandleImpl *>(ipalf_handle_impl);
leader.palf_id_ = id;
leader.palf_env_impl_ = dynamic_cast<PalfEnvImpl*>(svr->get_palf_env());
PALF_LOG(INFO, "get_leader is", K(svr->get_addr()), K(leader_idx), K(epoch));
break;
}
svr->get_palf_env()->revert_palf_handle_impl(ipalf_handle_impl);
}
if (NULL== leader.palf_handle_impl_) {
ret = OB_ENTRY_NOT_EXIST;
PALF_LOG(WARN, "leader not exist", K(ret), K(id));
sleep(1);
}
} while (OB_ENTRY_NOT_EXIST == ret);
PALF_LOG(INFO, "get_leader finished", K(ret), K(id), K(leader_idx));
return ret;
}
int ObSimpleLogClusterTestEnv::get_cluster_palf_handle_guard(const int64_t palf_id, std::vector<PalfHandleImplGuard*> &palf_list)
{
int ret = OB_SUCCESS;
for (auto svr : get_cluster()) {
PALF_LOG(INFO, "current", KPC(svr));
IPalfHandleImpl *ipalf_handle_impl = NULL;
auto guard = OB_NEW(PalfHandleImplGuard, "TestLogCluster");
if (svr->is_arb_server()) {
palf_list.push_back(guard);
} else if (OB_FAIL(svr->get_palf_env()->get_palf_handle_impl(palf_id, ipalf_handle_impl))) {
PALF_LOG(WARN, "open palf failed", K(ret), K(palf_id), KPC(svr));
} else {
guard->palf_handle_impl_ = dynamic_cast<PalfHandleImpl*>(ipalf_handle_impl);
guard->palf_env_impl_ = dynamic_cast<PalfEnvImpl*>(svr->get_palf_env());
guard->palf_id_ = palf_id;
palf_list.push_back(guard);
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::get_arb_member_guard(const int64_t palf_id, PalfHandleLiteGuard &guard)
{
int ret = OB_ENTRY_NOT_EXIST;
for (auto svr : get_cluster()) {
PALF_LOG(INFO, "current", KPC(svr));
IPalfHandleImpl *ipalf_handle_impl = NULL;
palflite::PalfEnvLite *palf_env = NULL;
ObSimpleArbServer *arb_svr = dynamic_cast<ObSimpleArbServer*>(svr);
if (svr->is_arb_server()) {
palf_env = dynamic_cast<palflite::PalfEnvLite*>(arb_svr->get_palf_env());
if (OB_FAIL(palf_env->get_palf_handle_impl(palf_id, ipalf_handle_impl))) {
PALF_LOG(WARN, "open palf failed", K(ret), K(palf_id), KPC(svr));
} else {
guard.palf_handle_lite_ = dynamic_cast<palflite::PalfHandleLite*>(ipalf_handle_impl);
guard.palf_env_lite_ = palf_env;
guard.palf_id_ = palf_id;
ret = OB_SUCCESS;
}
if (OB_NOT_NULL(palf_env)) {
arb_svr->revert_palf_env(palf_env);
}
break;
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::revert_cluster_palf_handle_guard(std::vector<PalfHandleImplGuard*> &palf_list)
{
int ret = OB_SUCCESS;
for (auto palf_handle_guard : palf_list) {
OB_DELETE(PalfHandleImplGuard, "TestLogCluster", palf_handle_guard);
}
return ret;
}
int ObSimpleLogClusterTestEnv::get_palf_handle_guard(const std::vector<PalfHandleImplGuard*> &palf_list,
const common::ObAddr &server,
PalfHandleImplGuard &palf_handle)
{
int ret = OB_SUCCESS;
int64_t palf_id = INVALID_PALF_ID;;
PalfEnvImpl *palf_env = NULL;
for (auto handle: palf_list) {
if (OB_ISNULL(handle->palf_handle_impl_)) {
} else if (handle->palf_handle_impl_->self_ == server) {
palf_id = handle->palf_handle_impl_->palf_id_;
palf_env = handle->palf_env_impl_;
break;
}
}
if (false == is_valid_palf_id(palf_id)) {
ret = OB_ENTRY_NOT_EXIST;
} else {
IPalfHandleImpl *ipalf_handle_impl = NULL;
ret = palf_env->get_palf_handle_impl(palf_id, ipalf_handle_impl);
palf_handle.palf_env_impl_= palf_env;
palf_handle.palf_handle_impl_ = dynamic_cast<PalfHandleImpl*>(ipalf_handle_impl);
}
return ret;
}
int ObSimpleLogClusterTestEnv::switch_leader(const int64_t id, const int64_t new_leader_idx, PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
auto cluster = get_cluster();
int64_t old_leader_idx = 0;
common::ObAddr leader_addr = cluster[new_leader_idx]->get_addr();
PalfHandleImplGuard old_leader, new_leader;
std::vector<PalfHandleImplGuard*> palf_list;
if (OB_FAIL(get_leader(id, old_leader, old_leader_idx))) {
PALF_LOG(WARN, "get_leader failed", K(ret), K(id));
} else {
EXPECT_EQ(OB_SUCCESS, get_cluster_palf_handle_guard(id, palf_list));
EXPECT_EQ(OB_SUCCESS, get_palf_handle_guard(palf_list, leader_addr, new_leader));
while (old_leader.palf_handle_impl_->config_mgr_.log_ms_meta_.curr_.config_version_ >
new_leader.palf_handle_impl_->config_mgr_.log_ms_meta_.curr_.config_version_) {
::usleep(500);
}
new_leader.reset();
EXPECT_EQ(OB_SUCCESS, revert_cluster_palf_handle_guard(palf_list));
ObTenantEnv::set_tenant(cluster[old_leader_idx]->get_tenant_base());
old_leader.palf_handle_impl_->change_leader_to(leader_addr);
CLOG_LOG(INFO, "switch_leader success", K(ret), "prev_leader:", cluster[prev_leader_idx_]->get_addr(), "new_leader:", cluster[new_leader_idx]->get_addr(),
"old_leader:", cluster[old_leader_idx]->get_addr());
prev_leader_idx_ = new_leader_idx;
// 确保election已经切主成功.
do {
ret = get_leader(id, leader, old_leader_idx);
} while (old_leader_idx != new_leader_idx);
}
if (OB_SUCC(ret)) {
ObTenantEnv::set_tenant(cluster[new_leader_idx]->get_tenant_base());
}
return ret;
}
void ObSimpleLogClusterTestEnv::set_need_drop_packet(const int64_t id, const bool need_drop_packet)
{
auto cluster = get_cluster();
cluster[id]->set_need_drop_packet(need_drop_packet);
}
int ObSimpleLogClusterTestEnv::check_replica_sync(const int64_t id, PalfHandleImplGuard *pf1, PalfHandleImplGuard *pf2, const int64_t timeout_us)
{
int ret = OB_SUCCESS;
auto cluster = get_cluster();
ObAddr addr1 = pf1->palf_handle_impl_->self_;
ObAddr addr2 = pf2->palf_handle_impl_->self_;
const int64_t start_ts = ObTimeUtility::current_time();
LSN max_lsn_1, max_lsn_2;
LSN end_lsn_1, end_lsn_2;
if (NULL == pf1 | NULL == pf2) {
ret = OB_INVALID_ARGUMENT;
SERVER_LOG(ERROR, "invalid argumemt", KP(pf1), KP(pf2));
} else {
while (OB_SUCC(ret)) {
max_lsn_1 = pf1->palf_handle_impl_->get_max_lsn();
max_lsn_2 = pf2->palf_handle_impl_->get_max_lsn();
end_lsn_1 = pf1->palf_handle_impl_->get_end_lsn();
end_lsn_2 = pf2->palf_handle_impl_->get_end_lsn();
if (!end_lsn_1.is_valid()) {
ret = OB_ERR_UNEXPECTED;
SERVER_LOG(ERROR, "end_lsn_1 is invalid", K(addr1), K(addr2), K(max_lsn_1), K(end_lsn_1), K(end_lsn_2));
} else if (end_lsn_1 < max_lsn_1) {
usleep(1 * 1000);
} else if (max_lsn_2 < end_lsn_1) {
// 目前用max_lsn与leader的end_lsn比较
usleep(1 * 1000);
} else if (max_lsn_2 > end_lsn_1) {
ret = OB_ERR_UNEXPECTED;
SERVER_LOG(ERROR, "max_lsn is larger than leader's end_lsn", K(addr1), K(addr2), K(max_lsn_1), K(max_lsn_2), K(end_lsn_1), K(end_lsn_2));
break;
} else {
SERVER_LOG(INFO, "log is sync", K(addr1), K(addr2), K(max_lsn_1), K(max_lsn_2), K(end_lsn_1), K(end_lsn_2));
break;
}
if (OB_SUCC(ret) && timeout_us > 0 && ObTimeUtility::current_time() - start_ts >= timeout_us) {
ret = OB_TIMEOUT;
SERVER_LOG(INFO, "wait log sync timeout", K(ret), K(timeout_us), K(addr1), K(addr2), K(end_lsn_1), K(end_lsn_2));
break;
}
};
}
SERVER_LOG(INFO, "check_replica_sync finished", K(ret), K(addr1), K(addr2), K(max_lsn_1), K(end_lsn_1), K(max_lsn_2), K(end_lsn_2), K(timeout_us));
return ret;
}
// Bidirectional network isolation
void ObSimpleLogClusterTestEnv::block_all_net(const int64_t id)
{
auto cluster = get_cluster();
const ObAddr this_addr = cluster[id]->get_addr();
for (auto server : cluster) {
if (this_addr != server->get_addr()) {
cluster[id]->block_net(server->get_addr());
server->block_net(this_addr);
}
}
SERVER_LOG(INFO, "block_net success", K(this_addr));
}
void ObSimpleLogClusterTestEnv::unblock_all_net(const int64_t id)
{
auto cluster = get_cluster();
const ObAddr this_addr = cluster[id]->get_addr();
for (auto server : cluster) {
if (this_addr != server->get_addr()) {
cluster[id]->unblock_net(server->get_addr());
server->unblock_net(this_addr);
}
}
SERVER_LOG(INFO, "unblock_net success", K(this_addr));
}
void ObSimpleLogClusterTestEnv::block_net(const int64_t id1, const int64_t id2, const bool is_single_direction)
{
auto cluster = get_cluster();
ObAddr addr1 = cluster[id1]->get_addr();
ObAddr addr2 = cluster[id2]->get_addr();
cluster[id2]->block_net(addr1);
if (!is_single_direction) {
cluster[id1]->block_net(addr2);
}
SERVER_LOG(INFO, "block_net success", K(addr1), K(addr2), K(is_single_direction));
}
void ObSimpleLogClusterTestEnv::unblock_net(const int64_t id1, const int64_t id2)
{
auto cluster = get_cluster();
ObAddr addr1 = cluster[id1]->get_addr();
ObAddr addr2 = cluster[id2]->get_addr();
cluster[id1]->unblock_net(addr2);
cluster[id2]->unblock_net(addr1);
SERVER_LOG(INFO, "unblock_net success", K(addr1), K(addr2));
}
void ObSimpleLogClusterTestEnv::block_pcode(const int64_t id1, const ObRpcPacketCode &pcode)
{
auto cluster = get_cluster();
ObAddr addr1 = cluster[id1]->get_addr();
cluster[id1]->block_pcode(pcode);
SERVER_LOG(INFO, "block_pcode success", K(addr1), K(pcode));
}
void ObSimpleLogClusterTestEnv::unblock_pcode(const int64_t id1, const ObRpcPacketCode &pcode)
{
auto cluster = get_cluster();
ObAddr addr1 = cluster[id1]->get_addr();
cluster[id1]->unblock_pcode(pcode);
SERVER_LOG(INFO, "unblock_pcode success", K(addr1), K(pcode));
}
// set rpc loss by rate from id1 to id2
void ObSimpleLogClusterTestEnv::set_rpc_loss(const int64_t id1, const int64_t id2, const int loss_rate)
{
auto cluster = get_cluster();
ObAddr addr1 = cluster[id1]->get_addr();
ObAddr addr2 = cluster[id2]->get_addr();
cluster[id2]->set_rpc_loss(addr1, loss_rate);
SERVER_LOG(INFO, "set_rpc_loss success", K(addr1), K(addr2), K(loss_rate));
}
void ObSimpleLogClusterTestEnv::reset_rpc_loss(const int64_t id1, const int64_t id2)
{
auto cluster = get_cluster();
ObAddr addr1 = cluster[id1]->get_addr();
ObAddr addr2 = cluster[id2]->get_addr();
cluster[id2]->reset_rpc_loss(addr1);
SERVER_LOG(INFO, "reset_rpc_loss success", K(addr1), K(addr2));
}
int ObSimpleLogClusterTestEnv::submit_log(PalfHandleImplGuard &leader, int count, int id)
{
std::vector<LSN> lsn_array;
std::vector<SCN> scn_array;
return submit_log_impl(leader, count, id, 0, lsn_array, scn_array);
}
int ObSimpleLogClusterTestEnv::submit_log(PalfHandleImplGuard &leader, int count, int id, int data_len)
{
std::vector<LSN> lsn_array;
std::vector<SCN> scn_array;
return submit_log_impl(leader, count, id, data_len, lsn_array, scn_array);
}
int ObSimpleLogClusterTestEnv::submit_log(PalfHandleImplGuard &leader, int count, int id, std::vector<LSN> &lsn_array, std::vector<SCN> &scn_array)
{
return submit_log_impl(leader, count, id, 0, lsn_array, scn_array);
}
int ObSimpleLogClusterTestEnv::submit_log(PalfHandleImplGuard &leader, int count, int data_len, int id, std::vector<LSN> &lsn_array, std::vector<SCN> &scn_array)
{
return submit_log_impl(leader, count, id, data_len, lsn_array, scn_array);
}
int ObSimpleLogClusterTestEnv::submit_log(PalfHandleImplGuard &leader, LSN &lsn, share::SCN &scn)
{
const int64_t ref_ts = ObTimeUtility::current_time_ns();
share::SCN ref_scn;
ref_scn.convert_for_logservice(ref_ts);
return submit_log(leader, ref_scn, lsn, scn);
}
int ObSimpleLogClusterTestEnv::submit_log(PalfHandleImplGuard &leader, const share::SCN &ref_scn, LSN &lsn, share::SCN &scn)
{
int ret = OB_SUCCESS;
std::vector<LSN> lsn_array;
std::vector<SCN> scn_array;
if (OB_FAIL(submit_log_impl(leader, 1, 1, 0, ref_scn, lsn_array, scn_array))) {
//do nothing
} else {
lsn = lsn_array[0];
scn = scn_array[0];
}
return ret;
}
int ObSimpleLogClusterTestEnv::submit_log_impl(PalfHandleImplGuard &leader,
const int64_t count,
const int64_t id,
const int64_t data_len,
std::vector<LSN> &lsn_array,
std::vector<SCN> &scn_array)
{
const int64_t ref_ts = ObTimeUtility::current_time_ns();
share::SCN ref_scn;
ref_scn.convert_for_logservice(ref_ts);
return submit_log_impl(leader, count, id, data_len, ref_scn, lsn_array, scn_array);
}
// params[in] wanted_data_size: if equals to 0, it will generate data randomly
int ObSimpleLogClusterTestEnv::submit_log_impl(PalfHandleImplGuard &leader,
const int64_t count,
const int64_t id,
const int64_t data_len,
const share::SCN &ref_scn,
std::vector<LSN> &lsn_array,
std::vector<SCN> &scn_array)
{
int ret = OB_SUCCESS;
char *buf = NULL;
int buf_len = (data_len <= 0) ? MAX_LOG_BODY_SIZE: data_len;
int real_log_data_size = 0;
PalfAppendOptions opts;
ObRole role;
while (buf == NULL) {
buf = static_cast<char *>(ob_malloc(buf_len, ObNewModIds::TEST));
}
bool state;
if (OB_FAIL(generate_data(buf, buf_len, real_log_data_size, data_len))) {
PALF_LOG(ERROR, "generate_data failed", KP(buf), K(buf_len), K(real_log_data_size));
} else if (OB_FAIL(leader.palf_handle_impl_->get_role(role, opts.proposal_id, state))) {
PALF_LOG(WARN, "get_fole failed");
} else if (LEADER != role) {
ret = OB_STATE_NOT_MATCH;
PALF_LOG(WARN, "self is not leader, can't submit log", K(ret), K(role));
} else {
for (int i = 0; i < count && OB_SUCC(ret); i++) {
do {
usleep(10);
LSN lsn;
share::SCN scn;
ret = leader.palf_handle_impl_->submit_log(opts, buf, real_log_data_size, ref_scn, lsn, scn);
if (OB_SUCC(ret) && lsn.is_valid()) {
lsn_array.push_back(lsn);
scn_array.push_back(scn);
usleep(200);
PALF_LOG(INFO, "submit_log success", KR(ret), K(id), K(lsn), K(scn));
} else {
if (REACH_TIME_INTERVAL(100 * 1000)) {
PALF_LOG(WARN, "append failed", KR(ret), K(i));
}
}
} while (OB_EAGAIN == ret || common::OB_ERR_OUT_OF_UPPER_BOUND == ret);
if (OB_FAIL(ret)) {
PALF_LOG(WARN, "submit_log failed", KR(ret), K(i));
}
}
}
if (OB_NOT_NULL(buf)) {
ob_free(buf);
}
return ret;
}
int ObSimpleLogClusterTestEnv::raw_write(PalfHandleImplGuard &leader,
const LSN lsn,
const char *buf,
const int64_t buf_len)
{
int ret = OB_SUCCESS;
int real_log_data_size = 0;
PalfAppendOptions opts;
ObRole role;
bool state;
if (OB_FAIL(leader.palf_handle_impl_->get_role(role, opts.proposal_id, state))) {
PALF_LOG(WARN, "get_fole failed");
} else {
do {
usleep(10);
ret = (leader.palf_handle_impl_)->submit_group_log(opts, lsn, buf, buf_len);
if (OB_SUCC(ret)) {
PALF_LOG(INFO, "raw_write success", KR(ret), K(lsn));
} else {
if (REACH_TIME_INTERVAL(100 * 1000)) {
PALF_LOG(WARN, "raw_write failed", KR(ret));
}
}
} while (OB_EAGAIN == ret || common::OB_ERR_OUT_OF_UPPER_BOUND == ret);
if (OB_FAIL(ret)) {
PALF_LOG(WARN, "raw_write failed", KR(ret));
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::change_access_mode_to_raw_write(PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
palf::AccessMode new_access_mode = palf::AccessMode::RAW_WRITE;
palf::AccessMode curr_access_mode;
int64_t proposal_id, mode_version;
ObRole unused_role;
bool state;
const int64_t timeout_ns = 10 * 1000 * 1000 * 1000l;
if (OB_FAIL(leader.palf_handle_impl_->get_access_mode(mode_version, curr_access_mode))) {
PALF_LOG(WARN, "get_access_mode failed", K(ret));
} else if (OB_FAIL(leader.palf_handle_impl_->get_role(unused_role, proposal_id, state))) {
PALF_LOG(WARN, "get_access_mode failed", K(ret));
} else if (OB_FAIL(leader.palf_handle_impl_->change_access_mode(proposal_id, mode_version, new_access_mode, share::SCN::min_scn()))) {
PALF_LOG(WARN, "change_access_mode failed", K(ret));
} else {
PALF_LOG(INFO, "change_access_mode to raw_write success", K(ret));
}
return ret;
}
int ObSimpleLogClusterTestEnv::change_access_mode_to_append(PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
palf::AccessMode new_access_mode = palf::AccessMode::APPEND;
palf::AccessMode curr_access_mode;
int64_t proposal_id, mode_version;
ObRole unused_role;
bool state;
const int64_t timeout_ns = 10 * 1000 * 1000 * 1000l;
if (OB_FAIL(leader.palf_handle_impl_->get_access_mode(mode_version, curr_access_mode))) {
PALF_LOG(WARN, "get_access_mode failed", K(ret));
} else if (OB_FAIL(leader.palf_handle_impl_->get_role(unused_role, proposal_id, state))) {
PALF_LOG(WARN, "get_access_mode failed", K(ret));
} else if (OB_FAIL(leader.palf_handle_impl_->change_access_mode(proposal_id, mode_version, new_access_mode, SCN::min_scn()))) {
PALF_LOG(WARN, "change_access_mode failed", K(ret));
} else {
PALF_LOG(INFO, "change_access_mode to raw_write success", K(ret));
}
return ret;
}
int ObSimpleLogClusterTestEnv::read_log(PalfHandleImplGuard &leader)
{
return read_log(leader, LSN(PALF_INITIAL_LSN_VAL));
}
int ObSimpleLogClusterTestEnv::read_log(PalfHandleImplGuard &leader, const LSN &lsn)
{
int ret = OB_SUCCESS;
PalfBufferIterator iterator;
if (OB_FAIL(leader.palf_handle_impl_->alloc_palf_buffer_iterator(lsn, iterator))) {
} else {
while (OB_SUCCESS == ret) {
const char *buf;
int64_t buf_len = 0;
share::SCN scn = share::SCN::min_scn();
LSN log_offset;
bool is_raw_write = false;
if (OB_FAIL(iterator.next())) {
} else if (OB_FAIL(iterator.get_entry(buf, buf_len, scn, log_offset, is_raw_write))) {
} else {
PALF_LOG(TRACE, "print log entry", K(is_raw_write));
}
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::read_group_log(PalfHandleImplGuard &leader, LSN lsn)
{
int ret = OB_SUCCESS;
PalfGroupBufferIterator iterator;
if (OB_FAIL(leader.palf_handle_impl_->alloc_palf_group_buffer_iterator(lsn, iterator))) {
} else {
LogGroupEntry entry;
while (OB_SUCCESS == ret) {
LSN log_offset;
if (OB_FAIL(iterator.next())) {
} else if (OB_FAIL(iterator.get_entry(entry, log_offset))) {
} else if (iterator.iterator_impl_.curr_entry_is_raw_write_ != entry.get_header().is_raw_write()) {
ret = OB_ERR_UNEXPECTED;
PALF_LOG(ERROR, "raw write not match, unexpected error", K(ret), K(iterator));
} else {
PALF_LOG(TRACE, "print log group entry", K(entry));
}
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::read_and_submit_group_log(PalfHandleImplGuard &leader,
PalfHandleImplGuard &leader_raw_write,
const LSN &start_lsn)
{
int ret = OB_SUCCESS;
PalfGroupBufferIterator iterator;
if (OB_FAIL(leader.palf_handle_impl_->alloc_palf_group_buffer_iterator(LSN(start_lsn), iterator))) {
} else {
LogGroupEntry entry;
while (OB_SUCCESS == ret) {
LSN lsn;
if (OB_FAIL(iterator.next())) {
PALF_LOG(WARN, "iterator next failed", K(ret), K(iterator));
} else if (OB_FAIL(iterator.get_entry(entry, lsn))) {
PALF_LOG(WARN, "iterator get_entry failed", K(ret), K(iterator));
} else if (OB_FAIL(raw_write(leader_raw_write, lsn,
entry.get_data_buf()-entry.get_header().get_serialize_size(), entry.get_serialize_size()))) {
PALF_LOG(WARN, "raw_write failed", K(ret), K(iterator), K(entry), K(lsn));
}
}
if (OB_ITER_END == ret) {
wait_until_has_committed(leader_raw_write, LSN(leader.palf_handle_impl_->get_end_lsn()));
PalfBufferIterator iterator_raw_write;
if (OB_FAIL(leader_raw_write.palf_handle_impl_->alloc_palf_buffer_iterator(LSN(0), iterator_raw_write))) {
PALF_LOG(WARN, "leader seek failed", K(ret), K(iterator_raw_write));
} else {
while (OB_SUCCESS == ret) {
LSN lsn;
const char *buffer = NULL;
bool is_raw_write = false;
int64_t nbytes = 0;
share::SCN scn;
if (OB_FAIL(iterator_raw_write.next())) {
PALF_LOG(WARN, "iterator next failed", K(ret), K(iterator_raw_write));
} else if (OB_FAIL(iterator_raw_write.get_entry(buffer, nbytes, scn, lsn, is_raw_write))) {
PALF_LOG(WARN, "iterator get_entry failed", K(ret), K(iterator_raw_write), K(is_raw_write));
}
}
}
}
}
return ret;
}
int ping_buf(const block_id_t min_block_id, const block_id_t max_block_id, char *&buf, LogEngine *log_engine)
{
int ret = OB_SUCCESS;
int64_t size = PALF_BLOCK_SIZE;
buf = nullptr;
buf = reinterpret_cast<char *>(ob_malloc_align(4 * 1024, size, "Dummy"));
OB_ASSERT(nullptr != buf);
memset(buf, 0, size);
PALF_LOG(INFO, "runlin trace ping buf after memset");
int64_t cursor = 0;
for (block_id_t block_id = min_block_id; block_id <= min_block_id && OB_SUCC(ret); block_id++) {
ReadBuf read_buf(buf + cursor, PALF_BLOCK_SIZE);
int64_t out_read_size = 0;
if (OB_FAIL(
log_engine->read_log(LSN(block_id * PALF_BLOCK_SIZE), PALF_BLOCK_SIZE, read_buf, out_read_size))) {
} else {
cursor += PALF_BLOCK_SIZE;
PALF_LOG(INFO, "runlin trace ping buf read block_id", K(block_id));
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::read_log_from_memory(PalfHandleImplGuard &leader)
{
int ret = OB_SUCCESS;
LSN lsn(0);
MemPalfBufferIterator iterator;
MemoryStorage mem_storage;
char *buf = nullptr;
block_id_t min_block_id, max_block_id;
LogEngine *log_engine = &leader.palf_handle_impl_->log_engine_;
if (OB_FAIL(log_engine->get_block_id_range(min_block_id, max_block_id))) {
PALF_LOG(WARN, "get_block_id_range failed", K(ret));
} else {
auto func = [&leader](){return leader.palf_handle_impl_->get_end_lsn();};
if (OB_FAIL(ping_buf(min_block_id, max_block_id, buf, log_engine))) {
PALF_LOG(ERROR, "ping_buf failed", K(ret));
} else if (OB_FAIL(mem_storage.init(LSN(min_block_id * PALF_BLOCK_SIZE)))) {
PALF_LOG(ERROR, "mem_storage init failed", K(ret));
} else if (OB_FAIL(mem_storage.append(buf, PALF_BLOCK_SIZE))) {
PALF_LOG(ERROR, "append failed", K(ret), KP(buf), K(max_block_id), K(min_block_id));
} else if (OB_FAIL(iterator.init(LSN(min_block_id * PALF_BLOCK_SIZE), func, &mem_storage))) {
PALF_LOG(ERROR, "init failed", K(ret), KP(buf));
} else {
LogEntry entry;
LSN lsn;
while (OB_SUCC(iterator.next())) {
if (OB_FAIL(iterator.get_entry(entry, lsn))) {
PALF_LOG(WARN, "get_entry failed", K(ret));
}
}
}
if (NULL != buf) {
ob_free_align(buf);
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::advance_base_info(const int64_t id, const PalfBaseInfo &base_info)
{
int ret = OB_SUCCESS;
for (auto svr : get_cluster()) {
ObTenantEnv::set_tenant(svr->get_tenant_base());
IPalfHandleImplGuard guard;
share::ObLSID sid(id);
if (svr->is_arb_server()) {
} else if (svr->get_palf_env() == NULL) {
ret = OB_ERR_UNEXPECTED;
CLOG_LOG(ERROR, "svr is null", KPC(svr));
} else if (OB_FAIL(svr->get_palf_env()->get_palf_handle_impl(id, guard))) {
CLOG_LOG(WARN, "open palf failed", K(ret), K(id), KPC(svr));
} else if (OB_FAIL(guard.palf_handle_impl_->disable_sync())) {
CLOG_LOG(WARN, "disable_sync failed", K(ret), K(id), KPC(svr));
} else if (OB_FAIL(guard.palf_handle_impl_->advance_base_info(base_info, true))) {
CLOG_LOG(WARN, "advance_base_info failed", K(ret));
} else if (OB_FAIL(guard.palf_handle_impl_->enable_sync())) {
CLOG_LOG(WARN, "enable_sync failed", K(ret), K(id), KPC(svr));
} else {
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::get_palf_env(const int64_t server_idx,
PalfEnv *&palf_env)
{
int ret = OB_SUCCESS;
auto cluster = get_cluster();
if (server_idx >= cluster.size()) {
ret = OB_ENTRY_NOT_EXIST;
} else {
ret = cluster[server_idx]->get_palf_env(palf_env);
}
return ret;
}
int ObSimpleLogClusterTestEnv::wait_until_has_committed(PalfHandleImplGuard &leader, const LSN &lsn)
{
int ret = OB_SUCCESS;
LSN end_lsn;
SCN end_scn;
while (OB_SUCC(ret)) {
end_lsn = leader.palf_handle_impl_->get_end_lsn();
end_scn = leader.palf_handle_impl_->get_end_scn();
auto &sw = leader.palf_handle_impl_->sw_;
CLOG_LOG(INFO, "runlin trace wait_until_has_committed", K(end_lsn), K(lsn), K(end_scn), K(sw));
if (end_lsn < lsn) {
usleep(1000);
} else {
break;
}
}
return ret;
}
int ObSimpleLogClusterTestEnv::wait_lsn_until_flushed(const LSN &lsn, PalfHandleImplGuard &guard)
{
int ret = OB_SUCCESS;
int64_t print_log_time = OB_INVALID_TIMESTAMP;
LSN max_flushed_end_lsn = guard.palf_handle_impl_->sw_.max_flushed_end_lsn_;
while (lsn > max_flushed_end_lsn) {
usleep(5*1000);
if (palf_reach_time_interval(1*1000*1000, print_log_time)) {
PALF_LOG(WARN, "wait_lsn_until_flushed", K(ret), K(max_flushed_end_lsn), K(lsn));
}
max_flushed_end_lsn = guard.palf_handle_impl_->sw_.max_flushed_end_lsn_;
}
return ret;
}
void ObSimpleLogClusterTestEnv::wait_all_replcias_log_sync(const int64_t palf_id)
{
std::vector<PalfHandleImplGuard*> palf_list;
PalfHandleImplGuard leader;
int64_t leader_idx;
EXPECT_EQ(OB_SUCCESS, get_cluster_palf_handle_guard(palf_id, palf_list));
EXPECT_EQ(OB_SUCCESS, get_leader(palf_id, leader, leader_idx));
const LSN &end_lsn = leader.palf_handle_impl_->get_end_lsn();
bool need_check = true;
while (need_check) {
need_check = false;
for (auto srv: palf_list) {
LSN max_flushed_end_lsn;
srv->palf_handle_impl_->sw_.get_max_flushed_end_lsn(max_flushed_end_lsn);
if (end_lsn != max_flushed_end_lsn) {
need_check = true;
break;
}
}
::usleep(1000);
}
revert_cluster_palf_handle_guard(palf_list);
}
int ObSimpleLogClusterTestEnv::get_middle_scn(const int64_t log_num, PalfHandleImplGuard &leader, SCN &mid_scn, LogEntryHeader &log_entry_header)
{
int ret = OB_SUCCESS;
PalfBufferIterator iterator;
LSN init_lsn(PALF_INITIAL_LSN_VAL);
if (OB_FAIL(leader.palf_handle_impl_->alloc_palf_buffer_iterator(init_lsn, iterator))) {
PALF_LOG(ERROR, "seek failed", K(ret), K(iterator));
} else {
LogEntry entry;
LSN lsn;
int i = 0;
while (i < log_num && OB_SUCC(ret) && OB_SUCC(iterator.next())) {
if (OB_FAIL(iterator.get_entry(entry, lsn))) {
} else {
mid_scn = entry.get_scn();
}
i++;
};
if (OB_SUCCESS == ret) {
log_entry_header = entry.get_header();
}
PALF_LOG(INFO, "runlin trace entry", K(i), K(log_num), K(entry));
}
return ret;
}
void ObSimpleLogClusterTestEnv::switch_append_to_raw_write(PalfHandleImplGuard &leader, int64_t &mode_version)
{
AccessMode access_mode = AccessMode::INVALID_ACCESS_MODE;
int64_t proposal_id = INVALID_PROPOSAL_ID;
ObRole unused_role;
bool state;
leader.palf_handle_impl_->get_role(unused_role, proposal_id, state);
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->change_access_mode(proposal_id, mode_version, AccessMode::RAW_WRITE, SCN::min_scn()));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
}
void ObSimpleLogClusterTestEnv::switch_append_to_flashback(PalfHandleImplGuard &leader, int64_t &mode_version)
{
AccessMode access_mode = AccessMode::INVALID_ACCESS_MODE;
int64_t proposal_id = INVALID_PROPOSAL_ID;
ObRole unused_role;
bool state;
leader.palf_handle_impl_->get_role(unused_role, proposal_id, state);
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->change_access_mode(proposal_id, mode_version, AccessMode::RAW_WRITE, SCN::min_scn()));
leader.palf_handle_impl_->get_role(unused_role, proposal_id, state);
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->change_access_mode(proposal_id, mode_version, AccessMode::FLASHBACK, SCN::min_scn()));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
}
void ObSimpleLogClusterTestEnv::switch_flashback_to_append(PalfHandleImplGuard &leader, int64_t &mode_version)
{
AccessMode access_mode = AccessMode::INVALID_ACCESS_MODE;
int64_t proposal_id = INVALID_PROPOSAL_ID;
ObRole unused_role;
bool state;
leader.palf_handle_impl_->get_role(unused_role, proposal_id, state);
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->change_access_mode(proposal_id, mode_version, AccessMode::APPEND, SCN::min_scn()));
EXPECT_EQ(OB_SUCCESS, leader.palf_handle_impl_->get_access_mode(mode_version, access_mode));
}
} // end namespace unittest
} // end namespace oceanbase
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