drogon/orm_lib/tests/db_test.cc
An Tao 58702dc41e
Port drogon to Windows (#335)
Co-authored-by: mcirsta <mforce2@gmail.com>
2020-01-25 11:58:20 +08:00

590 lines
19 KiB
C++

/**
*
* db_test.cc
* An Tao
*
* Copyright 2018, An Tao. All rights reserved.
* Use of this source code is governed by a MIT license
* that can be found in the License file.
*
* Drogon
*
* Drogon database test program
*
*/
#include "Users.h"
#include <drogon/config.h>
#include <drogon/orm/DbClient.h>
#include <trantor/utils/Logger.h>
#include <iostream>
#include <chrono>
#include <thread>
#include <stdlib.h>
using namespace std::chrono_literals;
using namespace drogon::orm;
using namespace drogon_model::postgres;
#define RESET "\033[0m"
#define RED "\033[31m" /* Red */
#define GREEN "\033[32m" /* Green */
#define TEST_COUNT 36
int counter = 0;
int gLoops = 1;
std::promise<int> pro;
auto globalf = pro.get_future();
using namespace std::chrono_literals;
void addCount(int &count, std::promise<int> &pro)
{
++count;
// LOG_DEBUG << count;
if (count == TEST_COUNT * gLoops)
{
pro.set_value(1);
}
}
void testOutput(bool isGood, const std::string &testMessage)
{
if (isGood)
{
std::cout << GREEN << counter + 1 << ".\t" << testMessage << "\t\tOK\n";
std::cout << RESET;
addCount(counter, pro);
}
else
{
std::cout << RED << testMessage << "\t\tBAD\n";
std::cout << RESET;
exit(1);
}
}
void doTest(const drogon::orm::DbClientPtr &clientPtr)
{
// Prepare the test environment
*clientPtr << "DROP TABLE IF EXISTS USERS" >> [](const Result &r) {
testOutput(true, "Prepare the test environment(0)");
} >> [](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "Prepare the test environment(0)");
};
*clientPtr << "CREATE TABLE users \
(\
user_id character varying(32),\
user_name character varying(64),\
password character varying(64),\
org_name character varying(20),\
signature character varying(50),\
avatar_id character varying(32),\
id serial PRIMARY KEY,\
salt character varying(20),\
admin boolean DEFAULT false,\
CONSTRAINT user_id_org UNIQUE(user_id, org_name)\
)" >>
[](const Result &r) {
testOutput(true, "Prepare the test environment(1)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "Prepare the test environment(1)");
};
/// Test1:DbClient streaming-type interface
/// 1.1 insert,non-blocking
*clientPtr << "insert into users (user_id,user_name,password,org_name) "
"values($1,$2,$3,$4) returning *"
<< "pg"
<< "postgresql"
<< "123"
<< "default" >>
[](const Result &r) {
// std::cout << "id=" << r[0]["id"].as<int64_t>() << std::endl;
testOutput(r[0]["id"].as<int64_t>() == 1,
"DbClient streaming-type interface(0)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(0)");
};
/// 1.2 insert,blocking
*clientPtr << "insert into users (user_id,user_name,password,org_name) "
"values($1,$2,$3,$4) returning *"
<< "pg1"
<< "postgresql1"
<< "123"
<< "default" << Mode::Blocking >>
[](const Result &r) {
// std::cout << "id=" << r[0]["id"].as<int64_t>() << std::endl;
testOutput(r[0]["id"].as<int64_t>() == 2,
"DbClient streaming-type interface(1)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(1)");
};
/// 1.3 query,no-blocking
*clientPtr << "select * from users where 1 = 1" << Mode::NonBlocking >>
[](const Result &r) {
testOutput(r.size() == 2, "DbClient streaming-type interface(2)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(2)");
};
/// 1.4 query,blocking
*clientPtr << "select * from users where 1 = 1" << Mode::Blocking >>
[](const Result &r) {
testOutput(r.size() == 2, "DbClient streaming-type interface(3)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(3)");
};
/// 1.5 query,blocking
int count = 0;
*clientPtr << "select user_name, user_id, id from users where 1 = 1"
<< Mode::Blocking >>
[&count](bool isNull,
const std::string &name,
std::string user_id,
int id) {
if (!isNull)
++count;
else
{
testOutput(count == 2, "DbClient streaming-type interface(4)");
}
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(4)");
};
/// 1.6 query, parameter binding
*clientPtr << "select * from users where id = $1" << 1 >>
[](const Result &r) {
testOutput(r.size() == 1, "DbClient streaming-type interface(5)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(5)");
};
/// 1.7 query, parameter binding
*clientPtr << "select * from users where user_id = $1 and user_name = $2"
<< "pg1"
<< "postgresql1" >>
[](const Result &r) {
testOutput(r.size() == 1, "DbClient streaming-type interface(6)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(6)");
};
/// 1.8 delete
*clientPtr << "delete from users where user_id = $1 and user_name = $2"
<< "pg1"
<< "postgresql1" >>
[](const Result &r) {
testOutput(r.affectedRows() == 1,
"DbClient streaming-type interface(7)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(7)");
};
/// 1.9 update
*clientPtr << "update users set user_id = $1, user_name = $2 where user_id "
"= $3 and user_name = $4"
<< "pg1"
<< "postgresql1"
<< "pg"
<< "postgresql" >>
[](const Result &r) {
testOutput(r.affectedRows() == 1,
"DbClient streaming-type interface(8)");
} >>
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(8)");
};
/// 1.10 truncate
*clientPtr << "truncate table users" >> [](const Result &r) {
testOutput(true, "DbClient streaming-type interface(9)");
} >> [](const DrogonDbException &e) {
std::cerr << "error:" << e.base().what() << std::endl;
testOutput(false, "DbClient streaming-type interface(9)");
};
/// Test asynchronous method
/// 2.1 insert
clientPtr->execSqlAsync(
"insert into users \
(user_id,user_name,password,org_name) \
values($1,$2,$3,$4) returning *",
[](const Result &r) {
// std::cout << "id=" << r[0]["id"].as<int64_t>() << std::endl;
testOutput(r[0]["id"].as<int64_t>() == 3,
"DbClient asynchronous interface(0)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(0)");
},
"pg",
"postgresql",
"123",
"default");
/// 2.2 insert
clientPtr->execSqlAsync(
"insert into users \
(user_id,user_name,password,org_name) \
values($1,$2,$3,$4)",
[](const Result &r) {
// std::cout << "id=" << r[0]["id"].as<int64_t>() << std::endl;
testOutput(r.affectedRows() == 1,
"DbClient asynchronous interface(1)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(1)");
},
"pg1",
"postgresql1",
"123",
"default");
/// 2.3 query
clientPtr->execSqlAsync(
"select * from users where 1 = 1",
[](const Result &r) {
testOutput(r.size() == 2, "DbClient asynchronous interface(2)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(2)");
});
/// 2.2 query, parameter binding
clientPtr->execSqlAsync(
"select * from users where id = $1",
[](const Result &r) {
testOutput(r.size() == 0, "DbClient asynchronous interface(3)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(3)");
},
1);
/// 2.3 query, parameter binding
clientPtr->execSqlAsync(
"select * from users where user_id = $1 and user_name = $2",
[](const Result &r) {
testOutput(r.size() == 1, "DbClient asynchronous interface(4)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(4)");
},
"pg1",
"postgresql1");
/// 2.4 delete
clientPtr->execSqlAsync(
"delete from users where user_id = $1 and user_name = $2",
[](const Result &r) {
testOutput(r.affectedRows() == 1,
"DbClient asynchronous interface(5)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(5)");
},
"pg1",
"postgresql1");
/// 2.5 update
clientPtr->execSqlAsync(
"update users set user_id = $1, user_name = $2 where user_id "
"= $3 and user_name = $4",
[](const Result &r) {
testOutput(r.affectedRows() == 1,
"DbClient asynchronous interface(6)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(6)");
},
"pg1",
"postgresql1",
"pg",
"postgresql");
/// 2.6 truncate
clientPtr->execSqlAsync(
"truncate table users",
[](const Result &r) {
testOutput(true, "DbClient asynchronous interface(7)");
},
[](const DrogonDbException &e) {
std::cerr << "error:" << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(7)");
});
/// Test synchronous method
/// 3.1 insert
try
{
auto r = clientPtr->execSqlSync(
"insert into users (user_id,user_name,password,org_name) "
"values($1,$2,$3,$4) returning *",
"pg",
"postgresql",
"123",
"default");
testOutput(r[0]["id"].as<int64_t>() == 5,
"DbClient synchronous interface(0)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(0)");
}
/// 3.2 insert
try
{
auto r = clientPtr->execSqlSync(
"insert into users (user_id,user_name,password,org_name) "
"values($1,$2,$3,$4)",
"pg1",
"postgresql1",
"123",
"default");
testOutput(r.affectedRows() == 1, "DbClient synchronous interface(1)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(1)");
}
/// 3.3 query
try
{
auto r = clientPtr->execSqlSync(
"select * from users where user_id=$1 and user_name=$2",
"pg1",
"postgresql1");
testOutput(r.size() == 1, "DbClient synchronous interface(2)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(2)");
}
/// 3.4 query for none
try
{
auto r = clientPtr->execSqlSync(
"select * from users where user_id=$1 and user_name=$2",
"pg111",
"postgresql1");
testOutput(r.size() == 0, "DbClient synchronous interface(3)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient asynchronous interface(3)");
}
/// 3.5 bad sql
try
{
auto r = clientPtr->execSqlSync(
"select * from users where user_id=$1 and user_name='1234'",
"pg111",
"postgresql1");
testOutput(r.size() == 0, "DbClient synchronous interface(4)");
}
catch (const DrogonDbException &e)
{
// std::cerr << e.base().what() << std::endl;
testOutput(true, "DbClient asynchronous interface(4)");
}
/// 3.6 truncate
try
{
auto r = clientPtr->execSqlSync("truncate table users");
testOutput(true, "DbClient synchronous interface(5)");
}
catch (const DrogonDbException &e)
{
// std::cerr << e.base().what() << std::endl;
testOutput(true, "DbClient asynchronous interface(5)");
}
/// Test future interface
/// 4.1 insert
auto f = clientPtr->execSqlAsyncFuture(
"insert into users (user_id,user_name,password,org_name) "
"values($1,$2,$3,$4) returning *",
"pg",
"postgresql",
"123",
"default");
try
{
auto r = f.get();
testOutput(r[0]["id"].as<int64_t>() == 7,
"DbClient future interface(0)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient future interface(0)");
}
/// 4.2 insert
f = clientPtr->execSqlAsyncFuture(
"insert into users (user_id,user_name,password,org_name) "
"values($1,$2,$3,$4)",
"pg1",
"postgresql1",
"123",
"default");
try
{
auto r = f.get();
testOutput(r.affectedRows() == 1, "DbClient future interface(1)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient future interface(1)");
}
/// 4.3 query
f = clientPtr->execSqlAsyncFuture(
"select * from users where user_id=$1 and user_name=$2",
"pg1",
"postgresql1");
try
{
auto r = f.get();
testOutput(r.size() == 1, "DbClient future interface(2)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient future interface(2)");
}
/// 4.4 query for none
f = clientPtr->execSqlAsyncFuture(
"select * from users where user_id=$1 and user_name=$2",
"pg111",
"postgresql1");
try
{
auto r = f.get();
testOutput(r.size() == 0, "DbClient future interface(3)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "DbClient future interface(3)");
}
/// 4.5 bad sql
f = clientPtr->execSqlAsyncFuture(
"select * from users where user_id=$1 and user_name='12'",
"pg111",
"postgresql1");
try
{
auto r = f.get();
testOutput(r.size() == 0, "DbClient future interface(4)");
}
catch (const DrogonDbException &e)
{
// std::cerr << e.base().what() << std::endl;
testOutput(true, "DbClient future interface(4)");
}
/// 4.6 truncate
f = clientPtr->execSqlAsyncFuture("truncate table users");
try
{
auto r = f.get();
testOutput(true, "DbClient future interface(5)");
}
catch (const DrogonDbException &e)
{
// std::cerr << e.base().what() << std::endl;
testOutput(true, "DbClient future interface(5)");
}
/// Test ORM mapper
/// 5.1 insert, noneblocking
drogon::orm::Mapper<Users> mapper(clientPtr);
Users user;
user.setUserId("pg");
user.setUserName("postgres");
user.setPassword("123");
user.setOrgName("default");
mapper.insert(
user,
[](Users ret) {
testOutput(ret.getPrimaryKey() == 9,
"ORM mapper asynchronous interface(0)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "ORM mapper asynchronous interface(0)");
});
/// 5.2 insert
user.setUserId("pg1");
user.setUserName("postgres1");
mapper.insert(
user,
[](Users ret) {
testOutput(ret.getPrimaryKey() == 10,
"ORM mapper asynchronous interface(1)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "ORM mapper asynchronous interface(1)");
});
/// 5.3 select where in
mapper.findBy(
Criteria(Users::Cols::_id,
CompareOperator::In,
std::vector<int32_t>{10, 200}),
[](std::vector<Users> users) {
testOutput(users.size() == 1,
"ORM mapper asynchronous interface(2)");
},
[](const DrogonDbException &e) {
std::cerr << e.base().what() << std::endl;
testOutput(false, "ORM mapper asynchronous interface(2)");
});
/// 5.4 find by primary key. blocking
try
{
auto user = mapper.findByPrimaryKey(10);
testOutput(true, "ORM mapper asynchronous interface(3)");
}
catch (const DrogonDbException &e)
{
std::cerr << e.base().what() << std::endl;
testOutput(false, "ORM mapper asynchronous interface(3)");
}
}
int main(int argc, char *argv[])
{
trantor::Logger::setLogLevel(trantor::Logger::kDebug);
#if USE_POSTGRESQL
auto clientPtr = DbClient::newPgClient(
"host=127.0.0.1 port=5432 dbname=postgres user=postgres", 1);
#endif
LOG_DEBUG << "start!";
std::this_thread::sleep_for(1s);
if (argc == 2)
{
gLoops = atoi(argv[1]);
}
for (int i = 0; i < gLoops; ++i)
{
doTest(clientPtr);
}
globalf.get();
std::this_thread::sleep_for(0.008s);
return 0;
}