/**

* 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.

*/

#define USING_LOG_PREFIX SQL

#include "lib/rowid/ob_urowid.h"

#include "lib/container/ob_array.h"

#include "lib/number/ob_number_v2.h"

#include "lib/timezone/ob_timezone_info.h"

#include "lib/timezone/ob_time_convert.h"

#include "lib/encode/ob_base64_encode.h"

#include "common/object/ob_object.h"

#include "share/ob_errno.h"

#include <gtest/gtest.h>

#include <cstdlib>

#include <iostream>

#include <string>

#include <cstring>

using std::cout;

using std::endl;

namespace oceanbase

{

namespace common

{

class TestAllocator: public ObIAllocator

{

public:

virtual void *alloc(const int64_t size) override

{

return std::malloc(size);

}

virtual void free(void *ptr) override

{

return std::free(ptr);

}

virtual void *alloc(const int64_t size, const ObMemAttr &/* not used */)

{

return std::malloc(size);

}

};

class TestURowID

{

public:

// void SetUp() override {}

// void TearDown() override {}

void multi_set_and_get()

{

ObObj pk_val;

ObArray<ObObj> pk_vals;

TestAllocator allocator;

pk_val.set_null();

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_tinyint(1);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_smallint(2);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_mediumint(322);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_int32(4333);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_int(512345678);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_float(1.2345678);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_double(2345.231312411);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

number::ObNumber test_number;

test_number.from("123456789987654321.12345678987654321", allocator);

pk_val.set_number(test_number);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

const char *test_str = "hello, this is a test";

pk_val.set_char(ObString(strlen(test_str), test_str));

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_varchar(ObString(strlen(test_str), test_str));

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_nchar(ObString(strlen(test_str), test_str));

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

pk_val.set_nvarchar2(ObString(strlen(test_str), test_str));

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

ObTimeZoneInfo time_zone_info;

time_zone_info.set_timezone("+8:00");

ObTimeConvertCtx time_convert_ctx(&time_zone_info,

ObTimeConverter::COMPAT_OLD_NLS_DATE_FORMAT,

true);

ObOTimestampData otime_data;

ObScale scale;

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_otimestamp("2020-02-24 21:37:25",

time_convert_ctx,

ObTimestampTZType,

otime_data,

scale));

pk_val.set_timestamp_tz(otime_data);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_otimestamp("2020-02-24 21:37:25",

time_convert_ctx,

ObTimestampNanoType,

otime_data,

scale));

pk_val.set_timestamp_nano(otime_data);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_otimestamp("2020-02-24 21:37:25",

time_convert_ctx,

ObTimestampNanoType,

otime_data,

scale));

pk_val.set_timestamp_nano(otime_data);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

scale = 9;

ObIntervalYMValue ym_value;

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_interval_ym("000000019-11", ym_value, scale));

pk_val.set_interval_ym(ym_value);

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

scale = 99;

ObIntervalDSValue ds_value;

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_interval_ds("000000012 11:11:11",

ds_value, scale));

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val));

ObURowIDData urowid_data;

ASSERT_EQ(OB_SUCCESS, urowid_data.set_rowid_content(pk_vals, ObURowIDData::PK_ROWID_VERSION, allocator));

int64_t pos = urowid_data.get_pk_content_offset();

int i = 0;

ObObj tmp_obj;

for(; pos < urowid_data.rowid_len_;) {

ASSERT_EQ(urowid_data.get_pk_type(pos), pk_vals.at(i).get_type());

ASSERT_EQ(OB_SUCCESS, urowid_data.get_pk_value(pk_vals.at(i).get_type(), pos, tmp_obj));

ASSERT_EQ(tmp_obj, pk_vals.at(i));

i++;

}

test_encode_decode(pk_vals, urowid_data);

}

void set_and_get_pk()

{

#define TEST_SET_AND_GET_VAL(val, val_len) \

do { \

pk_vals.reset(); \

urowid_data.reset(); \

ObObj tmp_obj; \

int64_t urowid_version = ObURowIDData::PK_ROWID_VERSION; \

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(pk_val)); \

ASSERT_EQ(OB_SUCCESS, urowid_data.set_rowid_content(pk_vals, ObURowIDData::PK_ROWID_VERSION, allocator)); \

int64_t tmp_pos = urowid_data.get_pk_content_offset(); \

ASSERT_EQ(urowid_version, urowid_data.get_version()); \

ASSERT_TRUE(urowid_data.is_valid_urowid()); \

ASSERT_EQ(val_len + 1, urowid_data.get_obj_size(val)); \

ASSERT_EQ(tmp_pos + val_len + 1, urowid_data.get_buf_len()); \

ASSERT_EQ(urowid_data.get_pk_type(tmp_pos), val.get_type()); \

ASSERT_EQ(tmp_pos, urowid_data.get_pk_content_offset() + 1); \

ASSERT_EQ(OB_SUCCESS, \

urowid_data.get_pk_value(val.get_type(), tmp_pos, tmp_obj)); \

ASSERT_EQ(tmp_obj, val); \

test_encode_decode(pk_vals, urowid_data); \

\

ObObj urowid_obj; \

ObURowIDData urowid2; \

urowid_obj.set_urowid(urowid_data); \

pk_vals.reset(); \

tmp_obj.reset(); \

ASSERT_EQ(OB_SUCCESS, pk_vals.push_back(urowid_obj)); \

ASSERT_EQ(OB_SUCCESS, urowid2.set_rowid_content(pk_vals, ObURowIDData::PK_ROWID_VERSION, allocator)); \

ASSERT_TRUE(urowid2.is_valid_urowid()); \

tmp_pos = urowid2.get_pk_content_offset(); \

ASSERT_EQ(ObURowIDType, urowid2.get_pk_type(tmp_pos)); \

ASSERT_EQ(OB_SUCCESS, \

urowid2.get_pk_value(urowid_obj.get_type(), tmp_pos, tmp_obj)); \

ASSERT_TRUE(urowid_data == tmp_obj.get_urowid()); \

} while (0);

ObURowIDData urowid_data;

ObArray<ObObj> pk_vals;

TestAllocator allocator;

ObObj pk_val;

pk_val.set_null();

ObObj val;

val.set_null();

// int64_t val_len = 0;

TEST_SET_AND_GET_VAL(pk_val, 0);

pk_val.set_tinyint(1);

TEST_SET_AND_GET_VAL(pk_val, 1);

pk_val.set_smallint(2);

TEST_SET_AND_GET_VAL(pk_val, 2);

pk_val.set_mediumint(3);

TEST_SET_AND_GET_VAL(pk_val, 4);

pk_val.set_int32(4);

TEST_SET_AND_GET_VAL(pk_val, 4);

pk_val.set_int(5);

TEST_SET_AND_GET_VAL(pk_val, 8);

pk_val.set_float(1.2345678);

TEST_SET_AND_GET_VAL(pk_val, sizeof(float));

pk_val.set_double(2345.231312411);

TEST_SET_AND_GET_VAL(pk_val, sizeof(double));

pk_val.set_datetime(1582569960);

TEST_SET_AND_GET_VAL(pk_val, 8);

number::ObNumber test_number;

test_number.from("123456789987654321.12345678987654321", allocator);

pk_val.set_number(test_number);

TEST_SET_AND_GET_VAL(pk_val, 4 + sizeof(uint32_t) * test_number.get_desc().len_);

pk_val.set_number_float(test_number);

TEST_SET_AND_GET_VAL(pk_val, 4 + sizeof(uint32_t) * test_number.get_desc().len_);

const char *test_str = "hello, this is a test";

pk_val.set_char(ObString(strlen(test_str), test_str));

TEST_SET_AND_GET_VAL(pk_val, 5 + strlen(test_str));

pk_val.set_varchar(ObString(strlen(test_str), test_str));

TEST_SET_AND_GET_VAL(pk_val, 5 + strlen(test_str));

pk_val.set_nchar(ObString(strlen(test_str), test_str));

TEST_SET_AND_GET_VAL(pk_val, 5 + strlen(test_str));

pk_val.set_nvarchar2(ObString(strlen(test_str), test_str));

TEST_SET_AND_GET_VAL(pk_val, 5 + strlen(test_str));

ObTimeZoneInfo time_zone_info;

time_zone_info.set_timezone("+8:00");

ObTimeConvertCtx time_convert_ctx(&time_zone_info,

ObTimeConverter::COMPAT_OLD_NLS_DATE_FORMAT,

true);

ObOTimestampData otime_data;

ObScale scale;

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_otimestamp("2020-02-24 21:37:25",

time_convert_ctx,

ObTimestampTZType,

otime_data,

scale));

pk_val.set_timestamp_tz(otime_data);

TEST_SET_AND_GET_VAL(pk_val, 12);

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_otimestamp("2020-02-24 21:37:25",

time_convert_ctx,

ObTimestampLTZType,

otime_data,

scale));

pk_val.set_timestamp_ltz(otime_data);

TEST_SET_AND_GET_VAL(pk_val, 10);

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_otimestamp("2020-02-24 21:37:25",

time_convert_ctx,

ObTimestampNanoType,

otime_data,

scale));

pk_val.set_timestamp_nano(otime_data);

TEST_SET_AND_GET_VAL(pk_val, 10);

scale = 9;

ObIntervalYMValue ym_value;

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_interval_ym("000000019-11", ym_value, scale));

pk_val.set_interval_ym(ym_value);

TEST_SET_AND_GET_VAL(pk_val, 8);

scale = 99;

ObIntervalDSValue ds_value;

ASSERT_EQ(OB_SUCCESS, ObTimeConverter::str_to_interval_ds("000000012 11:11:11",

ds_value, scale));

pk_val.set_interval_ds(ds_value);

TEST_SET_AND_GET_VAL(pk_val, 12);

}

void test_encode_decode(ObIArray<ObObj> &pk_vals, ObURowIDData &urowid_data)

{

TestAllocator allocator;

const int64_t encode_buf_len = urowid_data.needed_base64_buffer_size();

char *encode_buf = (char *)allocator.alloc(encode_buf_len);

int64_t encoded_len = 0;

ASSERT_EQ(OB_SUCCESS, urowid_data.get_base64_str(encode_buf, encode_buf_len, encoded_len));

ASSERT_EQ(encoded_len, encode_buf_len);

std::cout << std::string(encode_buf, encoded_len) << '\n';

// const int64_t decode_buf_len = ObURowIDData::needed_urowid_buf_size(encoded_len);

// char *decode_buf = (char *)allocator.alloc(decode_buf_len);

ObURowIDData decode_data;

ASSERT_EQ(OB_SUCCESS, ObURowIDData::decode2urowid(encode_buf, encoded_len,

allocator, decode_data));

ASSERT_EQ(decode_data, urowid_data);

int64_t decode_pos = decode_data.get_pk_content_offset();

int64_t i = 0;

for(; decode_pos < decode_data.rowid_len_; ) {

ObObjType obj_type = decode_data.get_pk_type(decode_pos);

ASSERT_EQ(obj_type, pk_vals.at(i).get_type());

ObObj tmp_obj;

ASSERT_EQ(OB_SUCCESS, decode_data.get_pk_value(obj_type, decode_pos, tmp_obj));

ASSERT_EQ(tmp_obj, pk_vals.at(i));

i += 1;

}

}

void test_urowid_cmp()

{

TestAllocator allocator;

ObURowIDData urowid1, urowid2;

ObObj obj;

number::ObNumber num;

ObArray<ObObj> pk_vals;

num.from("123456.123456", allocator);

obj.set_int(123456);

pk_vals.push_back(obj);

obj.set_number(num);

pk_vals.push_back(obj);

obj.set_varchar("hello");

pk_vals.push_back(obj);

ASSERT_EQ(OB_SUCCESS, urowid1.set_rowid_content(pk_vals, ObURowIDData::PK_ROWID_VERSION, allocator));

pk_vals.reset();

num.from("123456.124356", allocator);

obj.set_int(123456);

pk_vals.push_back(obj);

obj.set_number(num);

pk_vals.push_back(obj);

ASSERT_EQ(OB_SUCCESS, urowid2.set_rowid_content(pk_vals, ObURowIDData::PK_ROWID_VERSION, allocator));

ASSERT_TRUE(-1 == urowid1.compare(urowid2));

ASSERT_TRUE(1 == urowid2.compare(urowid1));

pk_vals.reset();

num.from("123456.123456", allocator);

obj.set_int(123456);

pk_vals.push_back(obj);

obj.set_number(num);

pk_vals.push_back(obj);

obj.set_varchar("hella");

pk_vals.push_back(obj);

ASSERT_EQ(OB_SUCCESS, urowid2.set_rowid_content(pk_vals, ObURowIDData::PK_ROWID_VERSION, allocator));

ASSERT_TRUE(1 == urowid1.compare(urowid2));

ASSERT_TRUE(-1 == urowid2.compare(urowid1));

}

};

TEST(TestURowID, single_urowid_test) {

TestAllocator alloc;

// bug:

const char *str = "*AAEWLlcAAABnYXJuaXNoIG51bWJlciB0ZWFyaW5nIG1hbnRsaW5nIGFjY3VzdG9tcyBleHRyZW1lcyBiYXNlbHkgY3JhemlseSBlbGRlciB0YXJkaWVzIHByZW1pc2UtCwAAAAACCkcywAAAAAAA";

ObURowIDData dec_data;

ASSERT_EQ(OB_SUCCESS, ObURowIDData::decode2urowid(str, strlen(str), alloc, dec_data));

}

TEST(TestURowID, set_and_get_pk) {

TestURowID urowid_test;

urowid_test.set_and_get_pk();

}

void decode_output()

{

TestAllocator alloc;

// const char *str = "*AAIPAQEAwHsAAAAACgEAAAAAAAAA";

const char *str = "*AAEWLlcAAABnYXJuaXNoIG51bWJlciB0ZWFyaW5nIG1hbnRsaW5nIGFjY3VzdG9tcyBleHRyZW1lcyBiYXNlbHkgY3JhemlseSBlbGRlciB0YXJkaWVzIHByZW1pc2UtCwAAAAACCkcywAAAAAAA";

ObURowIDData dec_data;

ASSERT_EQ(OB_SUCCESS, ObURowIDData::decode2urowid(str, strlen(str), alloc, dec_data));

ObArray<ObObj> pk_vals;

LOG_INFO("dba len: ", K(dec_data.get_guess_dba_len()));

LOG_INFO("ver: ", K(dec_data.get_version()));

ASSERT_EQ(OB_SUCCESS, dec_data.get_pk_vals(pk_vals));

LOG_INFO("cnt: ", K(pk_vals.count()));

for (int i = 0; i < pk_vals.count(); ++i) {

LOG_INFO("pk", K(pk_vals.at(i)));

}

}

TEST(TestURowID, multi_set_and_get) {

TestURowID urowid_test;

urowid_test.multi_set_and_get();

}

TEST(TestURowID, cmp) {

TestURowID urowid_test;

urowid_test.test_urowid_cmp();

}

} // end namesapce common

} // end namespace oceanbase

int main(int argc, char **argv)

{

testing::InitGoogleTest(&argc, argv);

system("rm -rf test_urowid.log");

OB_LOGGER.set_log_level("INFO");

OB_LOGGER.set_file_name("test_urowid.log", true);

oceanbase::common::decode_output();

return RUN_ALL_TESTS();

}