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// NOLINTBEGIN(*)
#include <ctime>
#include <algorithm>
#include "cxx_common.h"
#undef SUITE_NAME
#define SUITE_NAME DatabaseTestSuite
class DatabaseTestSuite : public CxxTest::TestSuite
{
protected:
DeviceProxy *device1;
string device1_name;
string dev_alias;
string att_alias;
Database *db;
private:
struct DeviceListTestRecord
{
string domain;
string family;
string member;
bool exported;
};
// This table has to be kept in sync with with test database and the filters
// we use with the test_device_lists
DeviceListTestRecord expected_devices[4] = {{"test", "debian8", "10", true},
{"test", "debian8", "11", true},
{"test", "debian8", "12", true},
{"test2", "debian8", "20", false}};
public:
SUITE_NAME()
{
//
// Arguments check -------------------------------------------------
//
device1_name = CxxTest::TangoPrinter::get_param("device1");
dev_alias = CxxTest::TangoPrinter::get_param("devicealias");
att_alias = CxxTest::TangoPrinter::get_param("attributealias");
CxxTest::TangoPrinter::validate_args();
// Initialization --------------------------------------------------
try
{
device1 = new DeviceProxy(device1_name);
db = new Database();
}
catch(CORBA::Exception &e)
{
Except::print_exception(e);
exit(-1);
}
}
virtual ~SUITE_NAME()
{
//
// Clean up --------------------------------------------------------
//
delete device1;
delete db;
}
static SUITE_NAME *createSuite()
{
return new SUITE_NAME();
}
static void destroySuite(SUITE_NAME *suite)
{
delete suite;
}
//
// Tests -------------------------------------------------------
//
// The get_device_info call
void test_get_server_class_list()
{
DbDevInfo db_dev_info;
db_dev_info.server = "TestServer/test";
db_dev_info._class = "TestServer";
db_dev_info.name = "test/TestServer/1";
db->add_device(db_dev_info);
DbDatum db_datum;
TS_ASSERT_THROWS_NOTHING(db_datum = db->get_server_class_list("TestServer/test"));
TS_ASSERT_EQUALS(db_datum.value_string.size(), 1u);
TS_ASSERT_EQUALS(db_datum.value_string[0], "TestServer");
db->delete_device("dserver/TestServer/test");
TS_ASSERT_THROWS_NOTHING(db_datum = db->get_server_class_list("TestServer/test"));
TS_ASSERT_EQUALS(db_datum.value_string.size(), 1u);
TS_ASSERT_EQUALS(db_datum.value_string[0], "TestServer");
TS_ASSERT_THROWS_NOTHING(db_datum = db->get_server_class_list("TestServer/test1"));
TS_ASSERT_EQUALS(db_datum.value_string.size(), 0u);
}
void test_get_device_info()
{
DbDevFullInfo dbfi = db->get_device_info(device1_name);
DeviceData dd, dd_in;
dd_in << device1_name;
dd = db->command_inout("DbImportDevice", dd_in);
const DevVarLongStringArray *dvlsa;
dd >> dvlsa;
TS_ASSERT_EQUALS(dbfi.name, device1_name);
TS_ASSERT_EQUALS(dbfi.ds_full_name, string(dvlsa->svalue[3]));
TS_ASSERT_EQUALS(dbfi.exported, 1);
TS_ASSERT_EQUALS(dbfi.class_name, string(dvlsa->svalue[5]));
TS_ASSERT_EQUALS(dbfi.host, string(dvlsa->svalue[4]));
TS_ASSERT_EQUALS(dbfi.pid, dvlsa->lvalue[1]);
}
// The device alias
void test_device_alias_calls()
{
string d_alias, d_name;
db->get_alias_from_device(device1_name, d_alias);
TS_ASSERT_EQUALS(d_alias, dev_alias);
db->get_device_from_alias(dev_alias, d_name);
TS_ASSERT_EQUALS(d_name, device1_name);
}
// The attribute alias
void test_attribute_alias_calls()
{
string a_alias, a_name;
string full_att_name(device1_name);
full_att_name = full_att_name + "/Short_attr";
db->get_alias_from_attribute(full_att_name, a_alias);
TS_ASSERT_EQUALS(a_alias, att_alias);
db->get_attribute_from_alias(att_alias, a_name);
transform(a_name.begin(), a_name.end(), a_name.begin(), ::tolower);
transform(full_att_name.begin(), full_att_name.end(), full_att_name.begin(), ::tolower);
TS_ASSERT_EQUALS(a_name, full_att_name);
}
// Pipe class oriented calls
void test_class_pipe_oriented_calls()
{
DbDatum velocity("_tst_pipe"), vel_min("_tst_pipe_propA"), vel_max("_tst_pipe_propB");
DbData db_data;
velocity << (short) 2;
vel_min << 3.0;
vel_max << 33.0;
db_data.push_back(velocity);
db_data.push_back(vel_min);
db_data.push_back(vel_max);
TS_ASSERT_THROWS_NOTHING(db->put_class_pipe_property("MyStepperMotor", db_data));
DbData get_db_data;
get_db_data.push_back(DbDatum("_tst_pipe"));
TS_ASSERT_THROWS_NOTHING(db->get_class_pipe_property("MyStepperMotor", get_db_data));
short nb_prop;
get_db_data[0] >> nb_prop;
TS_ASSERT_EQUALS(nb_prop, 2);
float propA, propB;
string prop1_name, prop2_name;
TS_ASSERT_EQUALS(get_db_data[1].name, "_tst_pipe_propA");
TS_ASSERT_EQUALS(get_db_data[2].name, "_tst_pipe_propB");
get_db_data[1] >> propA;
get_db_data[2] >> propB;
TS_ASSERT_EQUALS(propA, 3.0);
TS_ASSERT_EQUALS(propB, 33.0);
DbDatum db_datum;
TS_ASSERT_THROWS_NOTHING(db_datum = db->get_class_pipe_list("MyStepperMotor", "*"));
vector<string> pipe_list;
db_datum >> pipe_list;
TS_ASSERT_EQUALS(pipe_list.size(), 1u);
TS_ASSERT_EQUALS(pipe_list[0], "_tst_pipe");
DbData del_db_data;
del_db_data.push_back(DbDatum("_tst_pipe"));
del_db_data.push_back(DbDatum("_tst_pipe_propA"));
del_db_data.push_back(DbDatum("_tst_pipe_propB"));
TS_ASSERT_THROWS_NOTHING(db->delete_class_pipe_property("MyStepperMotor", del_db_data));
}
// Pipe device oriented calls
void test_device_pipe_oriented_calls()
{
DbDatum velocity("_tst_pipe"), vel_min("_tst_pipe_propA"), vel_max("_tst_pipe_propB");
DbData db_data;
velocity << (short) 2;
vel_min << 3.0;
vel_max << 33.0;
db_data.push_back(velocity);
db_data.push_back(vel_min);
db_data.push_back(vel_max);
TS_ASSERT_THROWS_NOTHING(db->put_device_pipe_property("a/b/c", db_data));
DbData get_db_data;
get_db_data.push_back(DbDatum("_tst_pipe"));
TS_ASSERT_THROWS_NOTHING(db->get_device_pipe_property("a/b/c", get_db_data));
short nb_prop;
get_db_data[0] >> nb_prop;
TS_ASSERT_EQUALS(nb_prop, 2);
float propA, propB;
string prop1_name, prop2_name;
TS_ASSERT_EQUALS(get_db_data[1].name, "_tst_pipe_propA");
TS_ASSERT_EQUALS(get_db_data[2].name, "_tst_pipe_propB");
get_db_data[1] >> propA;
get_db_data[2] >> propB;
TS_ASSERT_EQUALS(propA, 3.0);
TS_ASSERT_EQUALS(propB, 33.0);
vector<string> pipe_list;
TS_ASSERT_THROWS_NOTHING(db->get_device_pipe_list("a/b/c", pipe_list));
TS_ASSERT_EQUALS(pipe_list.size(), 1u);
TS_ASSERT_EQUALS(pipe_list[0], "_tst_pipe");
DbData del_db_data;
del_db_data.push_back(DbDatum("_tst_pipe"));
del_db_data.push_back(DbDatum("_tst_pipe_propA"));
del_db_data.push_back(DbDatum("_tst_pipe_propB"));
TS_ASSERT_THROWS_NOTHING(db->delete_device_pipe_property("a/b/c", del_db_data));
TS_ASSERT_THROWS_NOTHING(db->put_device_pipe_property("a/b/c", db_data));
DbData del_all;
del_all.push_back(DbDatum("_tst_pipe"));
TS_ASSERT_THROWS_NOTHING(db->delete_all_device_pipe_property("a/b/c", del_all));
}
// Device lists
void matching_device_filter_test(const std::string &filter)
{
auto contains = [](const auto &v, auto element)
{ return std::find(std::cbegin(v), std::cend(v), element) != std::cend(v); };
DbDatum db_datum;
std::vector<std::string> results;
{
db_datum = db->get_device_domain(filter);
db_datum >> results;
for(const auto &expected : expected_devices)
{
TS_ASSERT(contains(results, expected.domain));
}
}
{
db_datum = db->get_device_family(filter);
db_datum >> results;
for(const auto &expected : expected_devices)
{
TS_ASSERT(contains(results, expected.family));
}
}
{
db_datum = db->get_device_member(filter);
db_datum >> results;
for(const auto &expected : expected_devices)
{
TS_ASSERT(contains(results, expected.member));
}
}
{
db_datum = db->get_device_defined(filter);
db_datum >> results;
for(const auto &expected : expected_devices)
{
std::stringstream ss;
ss << expected.domain << "/" << expected.family << "/" << expected.member;
TS_ASSERT(contains(results, ss.str()));
}
}
{
db_datum = db->get_device_exported(filter);
db_datum >> results;
for(const auto &expected : expected_devices)
{
std::stringstream ss;
ss << expected.domain << "/" << expected.family << "/" << expected.member;
if(expected.exported)
{
TS_ASSERT(contains(results, ss.str()));
}
else
{
TS_ASSERT(!contains(results, ss.str()));
}
}
}
}
void non_matching_device_filter_test(const std::string &filter)
{
DbDatum db_datum;
std::vector<std::string> results;
{
db_datum = db->get_device_domain(filter);
db_datum >> results;
TS_ASSERT(results.empty());
}
{
db_datum = db->get_device_family(filter);
db_datum >> results;
TS_ASSERT(results.empty());
}
{
db_datum = db->get_device_member(filter);
db_datum >> results;
TS_ASSERT(results.empty());
}
{
db_datum = db->get_device_defined(filter);
db_datum >> results;
TS_ASSERT(results.empty());
}
{
db_datum = db->get_device_exported(filter);
db_datum >> results;
TS_ASSERT(results.empty());
}
}
void test_device_lists()
{
matching_device_filter_test("*/debian8/*");
matching_device_filter_test("*/DEBIAN8/*");
non_matching_device_filter_test("*/debian88/*");
non_matching_device_filter_test("");
}
};
// NOLINTEND(*)
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