Adding initial DeviceTypeManager test cases

revert-70aa11f8
megala21 7 years ago
parent 26f72a10c7
commit 9b76760c4a

@ -77,7 +77,21 @@
<artifactId>org.wso2.carbon.device.mgt.extensions.pull.notification</artifactId> <artifactId>org.wso2.carbon.device.mgt.extensions.pull.notification</artifactId>
<scope>test</scope> <scope>test</scope>
</dependency> </dependency>
<dependency>
<groupId>com.h2database.wso2</groupId>
<artifactId>h2-database-engine</artifactId>
<scope>test</scope>
</dependency>
<dependency>
<groupId>commons-dbcp.wso2</groupId>
<artifactId>commons-dbcp</artifactId>
<version>1.4.0.wso2v1</version>
</dependency>
<dependency>
<groupId>commons-pool.wso2</groupId>
<artifactId>commons-pool</artifactId>
<version>1.5.6.wso2v1</version>
</dependency>
</dependencies> </dependencies>
<build> <build>

@ -433,8 +433,11 @@ public class DeviceTypeManager implements DeviceManager {
if (propertiesExist) { if (propertiesExist) {
boolean status; boolean status;
Device existingDevice = this.getDevice(deviceIdentifier); Device existingDevice = this.getDevice(deviceIdentifier);
existingDevice.setProperties(device.getProperties());
if (existingDevice == null) {
return false;
}
existingDevice.setProperties(device.getProperties());
try { try {
if (log.isDebugEnabled()) { if (log.isDebugEnabled()) {
log.debug( log.debug(

@ -266,7 +266,7 @@ public class DeviceTypePluginDAOImpl implements PluginDAO {
deleteDBQueryToRemoveDevicd = "DELETE FROM " + deviceDAODefinition.getDeviceTableName() deleteDBQueryToRemoveDevicd = "DELETE FROM " + deviceDAODefinition.getDeviceTableName()
+ " WHERE " + deviceDAODefinition.getPrimaryKey() + " = ?"; + " WHERE " + deviceDAODefinition.getPrimaryKey() + " = ?";
selectDBQueryToGetAllDevice = "SELECT " + getDeviceTableColumnNames() + " FROM " selectDBQueryToGetAllDevice = "SELECT " + getDeviceTableColumnNames() + "," + deviceDAODefinition.getPrimaryKey() +
+ deviceDAODefinition.getDeviceTableName(); " FROM " + deviceDAODefinition.getDeviceTableName();
} }
} }

@ -0,0 +1,242 @@
/*
* Copyright (c) 2017, WSO2 Inc. (http://www.wso2.org) All Rights Reserved.
*
* WSO2 Inc. licenses this file to you under the Apache License,
* Version 2.0 (the "License"); you may not use this file except
* in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.wso2.carbon.device.mgt.extensions.device.type.template;
import org.mockito.Mockito;
import org.testng.Assert;
import org.testng.annotations.BeforeTest;
import org.testng.annotations.Test;
import org.wso2.carbon.base.MultitenantConstants;
import org.wso2.carbon.context.PrivilegedCarbonContext;
import org.wso2.carbon.context.RegistryType;
import org.wso2.carbon.device.mgt.common.Device;
import org.wso2.carbon.device.mgt.common.DeviceIdentifier;
import org.wso2.carbon.device.mgt.common.DeviceManagementException;
import org.wso2.carbon.device.mgt.common.configuration.mgt.PlatformConfiguration;
import org.wso2.carbon.device.mgt.extensions.device.type.template.config.DeviceTypeConfiguration;
import org.wso2.carbon.device.mgt.extensions.device.type.template.config.exception.DeviceTypeConfigurationException;
import org.wso2.carbon.device.mgt.extensions.device.type.template.dao.DeviceDAODefinition;
import org.wso2.carbon.device.mgt.extensions.device.type.template.dao.DeviceTypeDAOHandler;
import org.wso2.carbon.device.mgt.extensions.device.type.template.dao.DeviceTypePluginDAOImpl;
import org.wso2.carbon.device.mgt.extensions.device.type.template.dao.DeviceTypePluginDAOManager;
import org.wso2.carbon.device.mgt.extensions.internal.DeviceTypeExtensionDataHolder;
import org.wso2.carbon.device.mgt.extensions.utils.Utils;
import org.wso2.carbon.registry.core.Registry;
import org.wso2.carbon.registry.core.exceptions.RegistryException;
import org.wso2.carbon.registry.core.service.RegistryService;
import org.xml.sax.SAXException;
import javax.xml.bind.JAXBException;
import javax.xml.parsers.ParserConfigurationException;
import java.io.File;
import java.io.IOException;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.URL;
import java.sql.Connection;
import java.sql.SQLException;
import java.util.ArrayList;
import java.util.List;
/**
* This class tests the {@link DeviceTypeManager}
*/
public class DeviceTypeManagerTest {
private DeviceTypeManager androidDeviceTypeManager;
private DeviceIdentifier nonExistingDeviceIdentifier;
private Device sampleDevice1;
private Device sampleDevice2;
private String androidDeviceType;
@BeforeTest(description = "Mocking the classes for testing")
public void setup() throws NoSuchFieldException, IllegalAccessException, IOException, SQLException, SAXException,
ParserConfigurationException, DeviceTypeConfigurationException, JAXBException {
ClassLoader classLoader = getClass().getClassLoader();
URL resourceUrl = classLoader.getResource("android_h2.sql");
androidDeviceType = "android";
File androidDatabaseScript = null;
javax.sql.DataSource dataSource = null;
File carbonHome = new File("src/test/resources/carbon-home");
if (resourceUrl != null) {
androidDatabaseScript = new File(resourceUrl.getFile());
}
if (carbonHome.exists()) {
System.setProperty("carbon.home", carbonHome.getAbsolutePath());
}
resourceUrl = classLoader.getResource("android.xml");
File androidConfiguration = null;
if (resourceUrl != null) {
androidConfiguration = new File(resourceUrl.getFile());
}
DeviceTypeConfiguration androidDeviceConfiguration = Utils.getDeviceTypeConfiguration(androidConfiguration);
androidDeviceTypeManager = Mockito.mock(DeviceTypeManager.class, Mockito.CALLS_REAL_METHODS);
if (androidDatabaseScript != null) {
dataSource = Utils.createDataTables("deviceType", androidDatabaseScript.getAbsolutePath());
}
DeviceTypePluginDAOManager deviceTypePluginDAOManager = createMockDeviceTypePluginDAOManager(dataSource,
androidDeviceConfiguration);
Field deviceTypePluginDAOManagerField = DeviceTypeManager.class.getDeclaredField("deviceTypePluginDAOManager");
deviceTypePluginDAOManagerField.setAccessible(true);
deviceTypePluginDAOManagerField.set(androidDeviceTypeManager, deviceTypePluginDAOManager);
Field propertiesExist = DeviceTypeManager.class.getDeclaredField("propertiesExist");
propertiesExist.setAccessible(true);
Field deviceType = DeviceTypeManager.class.getDeclaredField("deviceType");
deviceType.setAccessible(true);
deviceType.set(androidDeviceTypeManager, androidDeviceType);
propertiesExist.set(androidDeviceTypeManager, true);
createDevice();
}
@Test(description = "This test case tests IsEnrolled method of the DeviceTypeManager",
dependsOnMethods = {"testEnrollDevice"})
public void testIsEnrolled() throws DeviceManagementException {
DeviceIdentifier deviceIdentifier = new DeviceIdentifier(sampleDevice2.getDeviceIdentifier(),
sampleDevice2.getType());
Assert.assertTrue(!androidDeviceTypeManager.isEnrolled(nonExistingDeviceIdentifier),
"Device with " + "NON-Existing ID is not enrolled, but this shows as enrolled");
Assert.assertTrue(androidDeviceTypeManager.isEnrolled(deviceIdentifier),
"Enrolled device is shown as un-enrolled");
}
@Test(description = "This test case tests the getDevcie method of the DeviceTypeManager", dependsOnMethods =
{"testEnrollDevice"})
public void testGetDevice() throws DeviceManagementException {
DeviceIdentifier existingDeviceIdntifier = new DeviceIdentifier(sampleDevice2.getDeviceIdentifier(),
androidDeviceType);
Assert.assertNull(androidDeviceTypeManager.getDevice(nonExistingDeviceIdentifier),
"Non existing sampleDevice was retrieved");
Assert.assertNotNull(androidDeviceTypeManager.getDevice(existingDeviceIdntifier),
"Existing sampleDevice was retrieved");
}
@Test(description = "This test case tests the enrollment of the device")
public void testEnrollDevice() throws DeviceManagementException {
Assert.assertTrue(androidDeviceTypeManager.enrollDevice(sampleDevice1));
Assert.assertTrue(!androidDeviceTypeManager.enrollDevice(sampleDevice2));
}
@Test(description = "This test case tests the get all devices method of the DeviceTypeManager", dependsOnMethods
= {"testEnrollDevice"})
public void testGetAllDevices() throws DeviceManagementException {
Assert.assertEquals(androidDeviceTypeManager.getAllDevices().size(), 1,
"All the added devices are not fetched " + "from the database");
}
@Test(description = "This test case tests the addition of platform configuration and retrieval of the same")
public void testAddPlatformConfiguration() throws RegistryException, DeviceManagementException {
PrivilegedCarbonContext.getThreadLocalCarbonContext()
.setTenantDomain(MultitenantConstants.SUPER_TENANT_DOMAIN_NAME);
PrivilegedCarbonContext.getThreadLocalCarbonContext().setTenantId(MultitenantConstants.SUPER_TENANT_ID);
PlatformConfiguration platformConfiguration = new PlatformConfiguration();
platformConfiguration.setType(androidDeviceType);
RegistryService registryService = Utils.getRegistryService();
Registry governanceSystemRegistry = registryService.getConfigSystemRegistry();
DeviceTypeExtensionDataHolder.getInstance().setRegistryService(registryService);
PrivilegedCarbonContext.getThreadLocalCarbonContext()
.setRegistry(RegistryType.SYSTEM_CONFIGURATION, governanceSystemRegistry);
androidDeviceTypeManager.saveConfiguration(platformConfiguration);
androidDeviceTypeManager.getConfiguration();
PlatformConfiguration actualPlatformConfiguration = androidDeviceTypeManager.getConfiguration();
Assert.assertNotNull(actualPlatformConfiguration,
"Platform Configuration saved and retrieved correctly in " + "DeviceType Manager");
Assert.assertEquals(actualPlatformConfiguration.getType(), androidDeviceType,
"Platform Configuration saved and " + "retrieved correctly in DeviceType Manager");
}
@Test (description = "This test case tests the getDefaultConfiguration method")
public void testGetDefaultConfiguration()
throws NoSuchMethodException, InvocationTargetException, IllegalAccessException {
Method getDefaultConfiguration = DeviceTypeManager.class.getDeclaredMethod("getDefaultConfiguration");
getDefaultConfiguration.setAccessible(true);
Assert.assertNull(getDefaultConfiguration.invoke(androidDeviceTypeManager), "Default configuration file "
+ "retrieved even without adding the configuration for the device type android");
}
@Test (description = "This test case tests the updateDeviceInfo method")
public void testUpdateDeviceInfo() throws DeviceManagementException {
DeviceIdentifier existingDeviceIdentifier = new DeviceIdentifier(sampleDevice2.getDeviceIdentifier(),
androidDeviceType);
Assert.assertFalse(androidDeviceTypeManager.updateDeviceInfo(nonExistingDeviceIdentifier, sampleDevice1),
"Non-existing device was updated");
Assert.assertTrue(androidDeviceTypeManager.updateDeviceInfo(existingDeviceIdentifier, sampleDevice1),
"Existing device update failed");
}
/**
* To create a sample sampleDevice to add to DAO Layer.
*/
private void createDevice() {
nonExistingDeviceIdentifier = new DeviceIdentifier("NON-EXISTING", androidDeviceType);
List<Device.Property> list = new ArrayList<>();
String[] deviceTypeAttributes = { "FCM_TOKEN", "DEVICE_INFO", "IMEI", "IMSI", "OS_VERSION", "DEVICE_MODEL",
"VENDOR", "LATITUDE", "LONGITUDE", "SERIAL", "MAC_ADDRESS", "DEVICE_NAME", "DEVICE_NAME",
"OS_BUILD_DATE" };
for (String deviceTypeAttribute : deviceTypeAttributes) {
Device.Property property = new Device.Property();
property.setName(deviceTypeAttribute);
property.setValue(deviceTypeAttribute + "T");
list.add(property);
}
sampleDevice1 = new Device("testdevice", androidDeviceType, "test", "testdevice", null, null, list);
sampleDevice2 = new Device("testdevice1", androidDeviceType, "test", "testdevice", null, null, list);
}
/*
* To create a mock sampleDevice type plugin dao manager.
* @param dataSource DataSource for the DAO layer
* @param androidDeviceConfiguration Android Device Configuration
* @return Mock Device Type Plugin DAO Manager
* @throws NoSuchFieldException No Such Field Exception
* @throws IllegalAccessException Illegal Access Exception
*/
private DeviceTypePluginDAOManager createMockDeviceTypePluginDAOManager(javax.sql.DataSource dataSource,
DeviceTypeConfiguration androidDeviceConfiguration) throws NoSuchFieldException, IllegalAccessException {
Field datasourceField = DeviceTypeDAOHandler.class.getDeclaredField("dataSource");
datasourceField.setAccessible(true);
Field currentConnection = DeviceTypeDAOHandler.class.getDeclaredField("currentConnection");
currentConnection.setAccessible(true);
DeviceTypeDAOHandler deviceTypeDAOHandler = Mockito
.mock(DeviceTypeDAOHandler.class, Mockito.CALLS_REAL_METHODS);
datasourceField.set(deviceTypeDAOHandler, dataSource);
currentConnection.set(deviceTypeDAOHandler, new ThreadLocal<Connection>());
DeviceDAODefinition deviceDAODefinition = Utils.getDeviceDAODefinition(androidDeviceConfiguration);
DeviceTypePluginDAOImpl deviceTypePluginDAO = new DeviceTypePluginDAOImpl(deviceDAODefinition,
deviceTypeDAOHandler);
DeviceTypePluginDAOManager deviceTypePluginDAOManager = Mockito
.mock(DeviceTypePluginDAOManager.class, Mockito.CALLS_REAL_METHODS);
Field deviceTypePluginDAOField = DeviceTypePluginDAOManager.class.getDeclaredField("deviceTypePluginDAO");
deviceTypePluginDAOField.setAccessible(true);
Field deviceTypeDAOHandlerField = DeviceTypePluginDAOManager.class.getDeclaredField("deviceTypeDAOHandler");
deviceTypeDAOHandlerField.setAccessible(true);
deviceTypePluginDAOField.set(deviceTypePluginDAOManager, deviceTypePluginDAO);
deviceTypeDAOHandlerField.set(deviceTypePluginDAOManager, deviceTypeDAOHandler);
return deviceTypePluginDAOManager;
}
}

@ -19,12 +19,24 @@
package org.wso2.carbon.device.mgt.extensions.utils; package org.wso2.carbon.device.mgt.extensions.utils;
import org.h2.jdbcx.JdbcDataSource;
import org.w3c.dom.Document; import org.w3c.dom.Document;
import org.wso2.carbon.device.mgt.common.configuration.mgt.PlatformConfiguration; import org.wso2.carbon.device.mgt.common.configuration.mgt.PlatformConfiguration;
import org.wso2.carbon.device.mgt.core.internal.DeviceManagementDataHolder;
import org.wso2.carbon.device.mgt.extensions.device.type.template.config.DeviceDetails;
import org.wso2.carbon.device.mgt.extensions.device.type.template.config.DeviceTypeConfiguration; import org.wso2.carbon.device.mgt.extensions.device.type.template.config.DeviceTypeConfiguration;
import org.wso2.carbon.device.mgt.extensions.device.type.template.config.Table;
import org.wso2.carbon.device.mgt.extensions.device.type.template.config.exception.DeviceTypeConfigurationException; import org.wso2.carbon.device.mgt.extensions.device.type.template.config.exception.DeviceTypeConfigurationException;
import org.wso2.carbon.device.mgt.extensions.device.type.template.dao.DeviceDAODefinition;
import org.wso2.carbon.registry.core.config.RegistryContext;
import org.wso2.carbon.registry.core.exceptions.RegistryException;
import org.wso2.carbon.registry.core.internal.RegistryDataHolder;
import org.wso2.carbon.registry.core.jdbc.realm.InMemoryRealmService;
import org.wso2.carbon.registry.core.service.RegistryService;
import org.wso2.carbon.user.core.service.RealmService;
import org.xml.sax.SAXException; import org.xml.sax.SAXException;
import javax.sql.DataSource;
import javax.xml.XMLConstants; import javax.xml.XMLConstants;
import javax.xml.bind.JAXBContext; import javax.xml.bind.JAXBContext;
import javax.xml.bind.JAXBException; import javax.xml.bind.JAXBException;
@ -34,6 +46,11 @@ import javax.xml.parsers.DocumentBuilderFactory;
import javax.xml.parsers.ParserConfigurationException; import javax.xml.parsers.ParserConfigurationException;
import java.io.File; import java.io.File;
import java.io.IOException; import java.io.IOException;
import java.io.InputStream;
import java.sql.Connection;
import java.sql.SQLException;
import java.sql.Statement;
import java.util.List;
/** /**
* This class handles the test utility tasks. * This class handles the test utility tasks.
@ -73,4 +90,84 @@ public class Utils {
DocumentBuilder docBuilder = factory.newDocumentBuilder(); DocumentBuilder docBuilder = factory.newDocumentBuilder();
return docBuilder.parse(file); return docBuilder.parse(file);
} }
/**
* To create the database tables for the particular device-type based on the scripts
*
* @param databaseName Name of the Database
* @param scriptFilePath Path of the SQL script File
* @throws IOException IO Exception
* @throws SQLException SQL Exception.
*/
public static DataSource createDataTables(String databaseName, String scriptFilePath) throws IOException,
SQLException {
JdbcDataSource dataSource = new JdbcDataSource();
dataSource.setURL("jdbc:h2:mem:" + databaseName + ";DB_CLOSE_DELAY=-1");
dataSource.setUser("sa");
dataSource.setPassword("sa");
File file = new File(scriptFilePath);
final String LOAD_DATA_QUERY = "RUNSCRIPT FROM '" + file.getCanonicalPath() + "'";
Connection connection = null;
try {
connection = dataSource.getConnection();
Statement statement = connection.createStatement();
statement.execute(LOAD_DATA_QUERY);
} finally {
if (connection != null) {
try {
connection.close();
} catch (SQLException e) {
}
}
}
return dataSource;
}
/**
* To get the DeviceDAO Definition from the DeviceTypeConfiguration.
*
* @param deviceTypeConfiguration Device Type Configuration which we need the DeviceDAO Definition
* @return DeviceDAO Definition of the particular devicetype
*/
public static DeviceDAODefinition getDeviceDAODefinition(DeviceTypeConfiguration deviceTypeConfiguration) {
DeviceDetails deviceDetails = deviceTypeConfiguration.getDeviceDetails();
DeviceDAODefinition deviceDAODefinition = null;
if (deviceDetails != null) {
String tableName = deviceTypeConfiguration.getDeviceDetails().getTableId();
if (tableName != null && !tableName.isEmpty()) {
List<Table> tables = deviceTypeConfiguration.getDataSource().getTableConfig().getTable();
Table deviceDefinitionTable = null;
for (Table table : tables) {
if (tableName.equals(table.getName())) {
deviceDefinitionTable = table;
break;
}
}
if (deviceDefinitionTable != null) {
deviceDAODefinition = new DeviceDAODefinition(deviceDefinitionTable);
}
}
}
return deviceDAODefinition;
}
/**
* To get the registry service.
* @return RegistryService
* @throws RegistryException Registry Exception
*/
public static RegistryService getRegistryService() throws RegistryException {
RealmService realmService = new InMemoryRealmService();
RegistryDataHolder.getInstance().setRealmService(realmService);
DeviceManagementDataHolder.getInstance().setRealmService(realmService);
InputStream is = Utils.class.getClassLoader().getResourceAsStream("carbon-home/repository/conf/registry.xml");
RegistryContext context = RegistryContext.getBaseInstance(is, realmService);
context.setSetup(true);
return context.getEmbeddedRegistryService();
}
} }

@ -0,0 +1,31 @@
-- -----------------------------------------------------
-- Table `AD_DEVICE`
-- -----------------------------------------------------
CREATE TABLE IF NOT EXISTS `AD_DEVICE` (
`DEVICE_ID` VARCHAR(45) NOT NULL,
`FCM_TOKEN` VARCHAR(1000) NULL DEFAULT NULL,
`DEVICE_INFO` VARCHAR(8000) NULL DEFAULT NULL,
`IMEI` VARCHAR(45) NULL DEFAULT NULL,
`IMSI` VARCHAR(45) NULL DEFAULT NULL,
`OS_VERSION` VARCHAR(45) NULL DEFAULT NULL,
`DEVICE_MODEL` VARCHAR(45) NULL DEFAULT NULL,
`VENDOR` VARCHAR(45) NULL DEFAULT NULL,
`LATITUDE` VARCHAR(45) NULL DEFAULT NULL,
`LONGITUDE` VARCHAR(45) NULL DEFAULT NULL,
`SERIAL` VARCHAR(45) NULL DEFAULT NULL,
`MAC_ADDRESS` VARCHAR(45) NULL DEFAULT NULL,
`DEVICE_NAME` VARCHAR(100) NULL DEFAULT NULL,
`OS_BUILD_DATE` VARCHAR(100) NULL DEFAULT NULL,
PRIMARY KEY (`DEVICE_ID`));
-- -----------------------------------------------------
-- Table `AD_FEATURE`
-- -----------------------------------------------------
CREATE TABLE IF NOT EXISTS `AD_FEATURE` (
`ID` INT NOT NULL AUTO_INCREMENT,
`CODE` VARCHAR(45) NOT NULL,
`NAME` VARCHAR(100) NULL,
`DESCRIPTION` VARCHAR(200) NULL,
PRIMARY KEY (`ID`));

@ -0,0 +1,429 @@
CREATE TABLE IF NOT EXISTS REG_CLUSTER_LOCK (
REG_LOCK_NAME VARCHAR (20),
REG_LOCK_STATUS VARCHAR (20),
REG_LOCKED_TIME TIMESTAMP,
REG_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (REG_LOCK_NAME)
);
CREATE TABLE IF NOT EXISTS REG_LOG (
REG_LOG_ID INTEGER AUTO_INCREMENT,
REG_PATH VARCHAR (2000),
REG_USER_ID VARCHAR (31) NOT NULL,
REG_LOGGED_TIME TIMESTAMP NOT NULL,
REG_ACTION INTEGER NOT NULL,
REG_ACTION_DATA VARCHAR (500),
REG_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (REG_LOG_ID, REG_TENANT_ID)
);
CREATE INDEX IF NOT EXISTS REG_LOG_IND_BY_REG_LOGTIME ON REG_LOG(REG_LOGGED_TIME, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_PATH(
REG_PATH_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_PATH_VALUE VARCHAR(2000) NOT NULL,
REG_PATH_PARENT_ID INT,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_PATH PRIMARY KEY(REG_PATH_ID, REG_TENANT_ID)
);
CREATE INDEX IF NOT EXISTS REG_PATH_IND_BY_NAME ON REG_PATH(REG_PATH_VALUE, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_PATH_IND_BY_PARENT_ID ON REG_PATH(REG_PATH_PARENT_ID, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_CONTENT (
REG_CONTENT_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_CONTENT_DATA LONGBLOB,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_CONTENT PRIMARY KEY(REG_CONTENT_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_CONTENT_HISTORY (
REG_CONTENT_ID INTEGER NOT NULL,
REG_CONTENT_DATA LONGBLOB,
REG_DELETED SMALLINT,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_CONTENT_HISTORY PRIMARY KEY(REG_CONTENT_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_RESOURCE (
REG_PATH_ID INTEGER NOT NULL,
REG_NAME VARCHAR(256),
REG_VERSION INTEGER NOT NULL AUTO_INCREMENT,
REG_MEDIA_TYPE VARCHAR(500),
REG_CREATOR VARCHAR(31) NOT NULL,
REG_CREATED_TIME TIMESTAMP NOT NULL,
REG_LAST_UPDATOR VARCHAR(31),
REG_LAST_UPDATED_TIME TIMESTAMP NOT NULL,
REG_DESCRIPTION VARCHAR(1000),
REG_CONTENT_ID INTEGER,
REG_TENANT_ID INTEGER DEFAULT 0,
REG_UUID VARCHAR(100) NOT NULL,
CONSTRAINT PK_REG_RESOURCE PRIMARY KEY(REG_VERSION, REG_TENANT_ID)
);
ALTER TABLE REG_RESOURCE ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_FK_BY_PATH_ID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
ALTER TABLE REG_RESOURCE ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_FK_BY_CONTENT_ID FOREIGN KEY (REG_CONTENT_ID, REG_TENANT_ID) REFERENCES REG_CONTENT (REG_CONTENT_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_IND_BY_NAME ON REG_RESOURCE(REG_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_IND_BY_PATH_ID_NAME ON REG_RESOURCE(REG_PATH_ID, REG_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_IND_BY_UUID ON REG_RESOURCE(REG_UUID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_IND_BY_TENANT ON REG_RESOURCE(REG_TENANT_ID, REG_UUID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_IND_BY_TYPE ON REG_RESOURCE(REG_TENANT_ID, REG_MEDIA_TYPE);
CREATE TABLE IF NOT EXISTS REG_RESOURCE_HISTORY (
REG_PATH_ID INTEGER NOT NULL,
REG_NAME VARCHAR(256),
REG_VERSION INTEGER NOT NULL,
REG_MEDIA_TYPE VARCHAR(500),
REG_CREATOR VARCHAR(31) NOT NULL,
REG_CREATED_TIME TIMESTAMP NOT NULL,
REG_LAST_UPDATOR VARCHAR(31),
REG_LAST_UPDATED_TIME TIMESTAMP NOT NULL,
REG_DESCRIPTION VARCHAR(1000),
REG_CONTENT_ID INTEGER,
REG_DELETED SMALLINT,
REG_TENANT_ID INTEGER DEFAULT 0,
REG_UUID VARCHAR(100) NOT NULL,
CONSTRAINT PK_REG_RESOURCE_HISTORY PRIMARY KEY(REG_VERSION, REG_TENANT_ID)
);
ALTER TABLE REG_RESOURCE_HISTORY ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_HIST_FK_BY_PATHID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
ALTER TABLE REG_RESOURCE_HISTORY ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_HIST_FK_BY_CONTENT_ID FOREIGN KEY (REG_CONTENT_ID, REG_TENANT_ID) REFERENCES REG_CONTENT_HISTORY (REG_CONTENT_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_HISTORY_IND_BY_NAME ON REG_RESOURCE_HISTORY(REG_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_HISTORY_IND_BY_PATH_ID_NAME ON REG_RESOURCE(REG_PATH_ID, REG_NAME, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_COMMENT (
REG_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_COMMENT_TEXT VARCHAR(500) NOT NULL,
REG_USER_ID VARCHAR(31) NOT NULL,
REG_COMMENTED_TIME TIMESTAMP NOT NULL,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_COMMENT PRIMARY KEY(REG_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_RESOURCE_COMMENT (
REG_COMMENT_ID INTEGER NOT NULL,
REG_VERSION INTEGER,
REG_PATH_ID INTEGER,
REG_RESOURCE_NAME VARCHAR(256),
REG_TENANT_ID INTEGER DEFAULT 0
);
ALTER TABLE REG_RESOURCE_COMMENT ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_COMMENT_FK_BY_PATH_ID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
ALTER TABLE REG_RESOURCE_COMMENT ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_COMMENT_FK_BY_COMMENT_ID FOREIGN KEY (REG_COMMENT_ID, REG_TENANT_ID) REFERENCES REG_COMMENT (REG_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_COMMENT_IND_BY_PATH_ID_AND_RESOURCE_NAME ON REG_RESOURCE_COMMENT(REG_PATH_ID, REG_RESOURCE_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_COMMENT_IND_BY_VERSION ON REG_RESOURCE_COMMENT(REG_VERSION, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_RATING (
REG_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_RATING INTEGER NOT NULL,
REG_USER_ID VARCHAR(31) NOT NULL,
REG_RATED_TIME TIMESTAMP NOT NULL,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_RATING PRIMARY KEY(REG_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_RESOURCE_RATING (
REG_RATING_ID INTEGER NOT NULL,
REG_VERSION INTEGER,
REG_PATH_ID INTEGER,
REG_RESOURCE_NAME VARCHAR(256),
REG_TENANT_ID INTEGER DEFAULT 0
);
ALTER TABLE REG_RESOURCE_RATING ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_RATING_FK_BY_PATH_ID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
ALTER TABLE REG_RESOURCE_RATING ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_RATING_FK_BY_RATING_ID FOREIGN KEY (REG_RATING_ID, REG_TENANT_ID) REFERENCES REG_RATING (REG_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_RATING_IND_BY_PATH_ID_AND_RESOURCE_NAME ON REG_RESOURCE_RATING(REG_PATH_ID, REG_RESOURCE_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_RATING_IND_BY_VERSION ON REG_RESOURCE_RATING(REG_VERSION, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_TAG (
REG_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_TAG_NAME VARCHAR(500) NOT NULL,
REG_USER_ID VARCHAR(31) NOT NULL,
REG_TAGGED_TIME TIMESTAMP NOT NULL,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_TAG PRIMARY KEY(REG_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_RESOURCE_TAG (
REG_TAG_ID INTEGER NOT NULL,
REG_VERSION INTEGER,
REG_PATH_ID INTEGER,
REG_RESOURCE_NAME VARCHAR(256),
REG_TENANT_ID INTEGER DEFAULT 0
);
ALTER TABLE REG_RESOURCE_TAG ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_TAG_FK_BY_PATH_ID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
ALTER TABLE REG_RESOURCE_TAG ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_TAG_FK_BY_TAG_ID FOREIGN KEY (REG_TAG_ID, REG_TENANT_ID) REFERENCES REG_TAG (REG_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_TAG_IND_BY_PATH_ID_AND_RESOURCE_NAME ON REG_RESOURCE_TAG(REG_PATH_ID, REG_RESOURCE_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_TAG_IND_BY_VERSION ON REG_RESOURCE_TAG(REG_VERSION, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_PROPERTY (
REG_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_NAME VARCHAR(100) NOT NULL,
REG_VALUE VARCHAR(1000),
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_PROPERTY PRIMARY KEY(REG_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_RESOURCE_PROPERTY (
REG_PROPERTY_ID INTEGER NOT NULL,
REG_VERSION INTEGER,
REG_PATH_ID INTEGER,
REG_RESOURCE_NAME VARCHAR(256),
REG_TENANT_ID INTEGER DEFAULT 0
);
ALTER TABLE REG_RESOURCE_PROPERTY ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_PROPERTY_FK_BY_PATH_ID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
ALTER TABLE REG_RESOURCE_PROPERTY ADD CONSTRAINT IF NOT EXISTS REG_RESOURCE_PROPERTY_FK_BY_TAG_ID FOREIGN KEY (REG_PROPERTY_ID, REG_TENANT_ID) REFERENCES REG_PROPERTY (REG_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_PROPERTY_IND_BY_PATH_ID_AND_RESOURCE_NAME ON REG_RESOURCE_PROPERTY(REG_PATH_ID, REG_RESOURCE_NAME, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_RESOURCE_PROPERTY_IND_BY_VERSION ON REG_RESOURCE_PROPERTY(REG_VERSION, REG_TENANT_ID);
CREATE TABLE IF NOT EXISTS REG_ASSOCIATION (
REG_ASSOCIATION_ID INTEGER AUTO_INCREMENT,
REG_SOURCEPATH VARCHAR (2000) NOT NULL,
REG_TARGETPATH VARCHAR (2000) NOT NULL,
REG_ASSOCIATION_TYPE VARCHAR (2000) NOT NULL,
REG_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (REG_ASSOCIATION_ID, REG_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS REG_SNAPSHOT (
REG_SNAPSHOT_ID INTEGER NOT NULL AUTO_INCREMENT,
REG_PATH_ID INTEGER NOT NULL,
REG_RESOURCE_NAME VARCHAR (256),
REG_RESOURCE_VIDS LONGBLOB NOT NULL,
REG_TENANT_ID INTEGER DEFAULT 0,
CONSTRAINT PK_REG_SNAPSHOT PRIMARY KEY(REG_SNAPSHOT_ID, REG_TENANT_ID)
);
ALTER TABLE REG_SNAPSHOT ADD CONSTRAINT IF NOT EXISTS REG_SNAPSHOT_FK_BY_PATH_ID FOREIGN KEY (REG_PATH_ID, REG_TENANT_ID) REFERENCES REG_PATH (REG_PATH_ID, REG_TENANT_ID);
CREATE INDEX IF NOT EXISTS REG_SNAPSHOT_IND_BY_PATH_ID_AND_RESOURCE_NAME ON REG_SNAPSHOT(REG_PATH_ID, REG_RESOURCE_NAME, REG_TENANT_ID);
-- ################################
-- USER MANAGER TABLES
-- ################################
CREATE TABLE IF NOT EXISTS UM_TENANT (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_DOMAIN_NAME VARCHAR(255) NOT NULL,
UM_EMAIL VARCHAR(255),
UM_ACTIVE BOOLEAN DEFAULT FALSE,
UM_CREATED_DATE TIMESTAMP NOT NULL,
UM_USER_CONFIG LONGBLOB NOT NULL,
PRIMARY KEY (UM_ID),
UNIQUE(UM_DOMAIN_NAME));
CREATE TABLE IF NOT EXISTS UM_DOMAIN(
UM_DOMAIN_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_DOMAIN_NAME VARCHAR(255),
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_DOMAIN_ID, UM_TENANT_ID)
);
CREATE INDEX IF NOT EXISTS INDEX_UM_TENANT_UM_DOMAIN_NAME ON UM_TENANT (UM_DOMAIN_NAME);
CREATE TABLE IF NOT EXISTS UM_USER (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_USER_NAME VARCHAR(255) NOT NULL,
UM_USER_PASSWORD VARCHAR(255) NOT NULL,
UM_SALT_VALUE VARCHAR(31),
UM_REQUIRE_CHANGE BOOLEAN DEFAULT FALSE,
UM_CHANGED_TIME TIMESTAMP NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_ID, UM_TENANT_ID),
UNIQUE(UM_USER_NAME, UM_TENANT_ID));
CREATE TABLE IF NOT EXISTS UM_SYSTEM_USER (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_USER_NAME VARCHAR(255) NOT NULL,
UM_USER_PASSWORD VARCHAR(255) NOT NULL,
UM_SALT_VALUE VARCHAR(31),
UM_REQUIRE_CHANGE BOOLEAN DEFAULT FALSE,
UM_CHANGED_TIME TIMESTAMP NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_ID, UM_TENANT_ID),
UNIQUE(UM_USER_NAME, UM_TENANT_ID));
CREATE TABLE IF NOT EXISTS UM_USER_ATTRIBUTE (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_ATTR_NAME VARCHAR(255) NOT NULL,
UM_ATTR_VALUE VARCHAR(1024),
UM_PROFILE_ID VARCHAR(255),
UM_USER_ID INTEGER,
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_ID, UM_TENANT_ID),
FOREIGN KEY (UM_USER_ID, UM_TENANT_ID) REFERENCES UM_USER(UM_ID, UM_TENANT_ID));
CREATE INDEX IF NOT EXISTS UM_USER_ID_INDEX ON UM_USER_ATTRIBUTE(UM_USER_ID);
CREATE TABLE IF NOT EXISTS UM_ROLE (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_ROLE_NAME VARCHAR(255) NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UM_SHARED_ROLE BOOLEAN DEFAULT FALSE,
PRIMARY KEY (UM_ID, UM_TENANT_ID),
UNIQUE(UM_ROLE_NAME, UM_TENANT_ID));
CREATE TABLE IF NOT EXISTS UM_MODULE(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_MODULE_NAME VARCHAR(100),
UNIQUE(UM_MODULE_NAME),
PRIMARY KEY(UM_ID)
);
CREATE TABLE IF NOT EXISTS UM_MODULE_ACTIONS(
UM_ACTION VARCHAR(255) NOT NULL,
UM_MODULE_ID INTEGER NOT NULL,
PRIMARY KEY(UM_ACTION, UM_MODULE_ID),
FOREIGN KEY (UM_MODULE_ID) REFERENCES UM_MODULE(UM_ID) ON DELETE CASCADE
);
CREATE TABLE IF NOT EXISTS UM_PERMISSION (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_RESOURCE_ID VARCHAR(255) NOT NULL,
UM_ACTION VARCHAR(255) NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UM_MODULE_ID INTEGER DEFAULT 0,
UNIQUE(UM_RESOURCE_ID,UM_ACTION, UM_TENANT_ID),
PRIMARY KEY (UM_ID, UM_TENANT_ID));
CREATE INDEX IF NOT EXISTS INDEX_UM_PERMISSION_UM_RESOURCE_ID_UM_ACTION ON UM_PERMISSION (UM_RESOURCE_ID, UM_ACTION, UM_TENANT_ID);
CREATE TABLE IF NOT EXISTS UM_ROLE_PERMISSION (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_PERMISSION_ID INTEGER NOT NULL,
UM_ROLE_NAME VARCHAR(255) NOT NULL,
UM_IS_ALLOWED SMALLINT NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UM_DOMAIN_ID INTEGER,
FOREIGN KEY (UM_PERMISSION_ID, UM_TENANT_ID) REFERENCES UM_PERMISSION(UM_ID, UM_TENANT_ID) ON DELETE CASCADE,
FOREIGN KEY (UM_DOMAIN_ID, UM_TENANT_ID) REFERENCES UM_DOMAIN(UM_DOMAIN_ID, UM_TENANT_ID) ON DELETE CASCADE,
PRIMARY KEY (UM_ID, UM_TENANT_ID));
CREATE TABLE IF NOT EXISTS UM_USER_PERMISSION (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_PERMISSION_ID INTEGER NOT NULL,
UM_USER_NAME VARCHAR(255) NOT NULL,
UM_IS_ALLOWED SMALLINT NOT NULL,
UNIQUE (UM_PERMISSION_ID, UM_USER_NAME, UM_TENANT_ID),
UM_TENANT_ID INTEGER DEFAULT 0,
FOREIGN KEY (UM_PERMISSION_ID, UM_TENANT_ID) REFERENCES UM_PERMISSION(UM_ID, UM_TENANT_ID) ON DELETE CASCADE,
PRIMARY KEY (UM_ID, UM_TENANT_ID));
CREATE TABLE IF NOT EXISTS UM_USER_ROLE (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_ROLE_ID INTEGER NOT NULL,
UM_USER_ID INTEGER NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UNIQUE (UM_USER_ID, UM_ROLE_ID, UM_TENANT_ID),
FOREIGN KEY (UM_ROLE_ID, UM_TENANT_ID) REFERENCES UM_ROLE(UM_ID, UM_TENANT_ID),
FOREIGN KEY (UM_USER_ID, UM_TENANT_ID) REFERENCES UM_USER(UM_ID, UM_TENANT_ID),
PRIMARY KEY (UM_ID, UM_TENANT_ID));
CREATE TABLE IF NOT EXISTS UM_SHARED_USER_ROLE(
UM_ROLE_ID INTEGER NOT NULL,
UM_USER_ID INTEGER NOT NULL,
UM_USER_TENANT_ID INTEGER NOT NULL,
UM_ROLE_TENANT_ID INTEGER NOT NULL,
UNIQUE(UM_USER_ID,UM_ROLE_ID,UM_USER_TENANT_ID, UM_ROLE_TENANT_ID),
FOREIGN KEY(UM_ROLE_ID,UM_ROLE_TENANT_ID) REFERENCES UM_ROLE(UM_ID,UM_TENANT_ID) ON DELETE CASCADE ,
FOREIGN KEY(UM_USER_ID,UM_USER_TENANT_ID) REFERENCES UM_USER(UM_ID,UM_TENANT_ID) ON DELETE CASCADE
);
CREATE TABLE IF NOT EXISTS UM_ACCOUNT_MAPPING(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_USER_NAME VARCHAR(255) NOT NULL,
UM_TENANT_ID INTEGER NOT NULL,
UM_USER_STORE_DOMAIN VARCHAR(100),
UM_ACC_LINK_ID INTEGER NOT NULL,
UNIQUE(UM_USER_NAME, UM_TENANT_ID, UM_USER_STORE_DOMAIN, UM_ACC_LINK_ID),
FOREIGN KEY (UM_TENANT_ID) REFERENCES UM_TENANT(UM_ID) ON DELETE CASCADE,
PRIMARY KEY (UM_ID)
);
CREATE TABLE IF NOT EXISTS UM_DIALECT(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_DIALECT_URI VARCHAR(255) NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UNIQUE(UM_DIALECT_URI, UM_TENANT_ID),
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_CLAIM(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_DIALECT_ID INTEGER NOT NULL,
UM_CLAIM_URI VARCHAR(255) NOT NULL,
UM_DISPLAY_TAG VARCHAR(255),
UM_DESCRIPTION VARCHAR(255),
UM_MAPPED_ATTRIBUTE_DOMAIN VARCHAR(255),
UM_MAPPED_ATTRIBUTE VARCHAR(255),
UM_REG_EX VARCHAR(255),
UM_SUPPORTED SMALLINT,
UM_REQUIRED SMALLINT,
UM_DISPLAY_ORDER INTEGER,
UM_CHECKED_ATTRIBUTE SMALLINT,
UM_READ_ONLY SMALLINT,
UM_TENANT_ID INTEGER DEFAULT 0,
UNIQUE(UM_DIALECT_ID, UM_CLAIM_URI,UM_MAPPED_ATTRIBUTE_DOMAIN, UM_TENANT_ID),
FOREIGN KEY(UM_DIALECT_ID, UM_TENANT_ID) REFERENCES UM_DIALECT(UM_ID, UM_TENANT_ID),
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_PROFILE_CONFIG(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_DIALECT_ID INTEGER,
UM_PROFILE_NAME VARCHAR(255),
UM_TENANT_ID INTEGER DEFAULT 0,
FOREIGN KEY(UM_DIALECT_ID, UM_TENANT_ID) REFERENCES UM_DIALECT(UM_ID, UM_TENANT_ID),
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_HYBRID_ROLE(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_ROLE_NAME VARCHAR(255),
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_HYBRID_USER_ROLE(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_USER_NAME VARCHAR(255),
UM_ROLE_ID INTEGER NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UM_DOMAIN_ID INTEGER,
UNIQUE (UM_USER_NAME, UM_ROLE_ID, UM_TENANT_ID,UM_DOMAIN_ID),
FOREIGN KEY (UM_ROLE_ID, UM_TENANT_ID) REFERENCES UM_HYBRID_ROLE(UM_ID, UM_TENANT_ID) ON DELETE CASCADE,
FOREIGN KEY (UM_DOMAIN_ID, UM_TENANT_ID) REFERENCES UM_DOMAIN(UM_DOMAIN_ID, UM_TENANT_ID) ON DELETE CASCADE,
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_HYBRID_REMEMBER_ME (
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_USER_NAME VARCHAR(255) NOT NULL,
UM_COOKIE_VALUE VARCHAR(1024),
UM_CREATED_TIME TIMESTAMP,
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_SYSTEM_ROLE(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_ROLE_NAME VARCHAR(255),
UM_TENANT_ID INTEGER DEFAULT 0,
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);
CREATE TABLE IF NOT EXISTS UM_SYSTEM_USER_ROLE(
UM_ID INTEGER NOT NULL AUTO_INCREMENT,
UM_USER_NAME VARCHAR(255),
UM_ROLE_ID INTEGER NOT NULL,
UM_TENANT_ID INTEGER DEFAULT 0,
UNIQUE (UM_USER_NAME, UM_ROLE_ID, UM_TENANT_ID),
FOREIGN KEY (UM_ROLE_ID, UM_TENANT_ID) REFERENCES UM_SYSTEM_ROLE(UM_ID, UM_TENANT_ID),
PRIMARY KEY (UM_ID, UM_TENANT_ID)
);

@ -0,0 +1,656 @@
<?xml version="1.0" encoding="ISO-8859-1"?>
<!--
~ Copyright 2005-2017 WSO2 Inc. (http://wso2.com)
~
~ Licensed under the Apache License, Version 2.0 (the "License");
~ you may not use this file except in compliance with the License.
~ You may obtain a copy of the License at
~
~ http://www.apache.org/licenses/LICENSE-2.0
~
~ Unless required by applicable law or agreed to in writing, software
~ distributed under the License is distributed on an "AS IS" BASIS,
~ WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
~ See the License for the specific language governing permissions and
~ limitations under the License.
-->
<!--
This is the main server configuration file
${carbon.home} represents the carbon.home system property.
Other system properties can be specified in a similar manner.
-->
<Server xmlns="http://wso2.org/projects/carbon/carbon.xml">
<!--
Product Name
-->
<Name>${product.name}</Name>
<!--
machine readable unique key to identify each product
-->
<ServerKey>${product.key}</ServerKey>
<!--
Product Version
-->
<Version>${product.version}</Version>
<!--
Host name or IP address of the machine hosting this server
e.g. www.wso2.org, 192.168.1.10
This is will become part of the End Point Reference of the
services deployed on this server instance.
-->
<!--HostName>www.wso2.org</HostName-->
<!--
Host name to be used for the Carbon management console
-->
<!--MgtHostName>mgt.wso2.org</MgtHostName-->
<!--
The URL of the back end server. This is where the admin services are hosted and
will be used by the clients in the front end server.
This is required only for the Front-end server. This is used when seperating BE server from FE server
-->
<ServerURL>local:/${carbon.context}/services/</ServerURL>
<!--
<ServerURL>https://${carbon.local.ip}:${carbon.management.port}${carbon.context}/services/</ServerURL>
-->
<!--
The URL of the index page. This is where the user will be redirected after signing in to the
carbon server.
-->
<!-- IndexPageURL>/carbon/admin/index.jsp</IndexPageURL-->
<!--
For cApp deployment, we have to identify the roles that can be acted by the current server.
The following property is used for that purpose. Any number of roles can be defined here.
Regular expressions can be used in the role.
Ex : <Role>.*</Role> means this server can act any role
-->
<ServerRoles>
<Role>${default.server.role}</Role>
</ServerRoles>
<!-- uncommnet this line to subscribe to a bam instance automatically -->
<!--<BamServerURL>https://bamhost:bamport/services/</BamServerURL>-->
<!--
The fully qualified name of the server
-->
<Package>org.wso2.carbon</Package>
<!--
Webapp context root of WSO2 Carbon management console.
-->
<WebContextRoot>/</WebContextRoot>
<!--
Proxy context path is a useful parameter to add a proxy path when a Carbon server is fronted by reverse proxy. In addtion
to the proxy host and proxy port this parameter allows you add a path component to external URLs. e.g.
URL of the Carbon server -> https://10.100.1.1:9443/carbon
URL of the reverse proxy -> https://prod.abc.com/appserver/carbon
appserver - proxy context path. This specially required whenever you are generating URLs to displace in
Carbon UI components.
-->
<!--
<MgtProxyContextPath></MgtProxyContextPath>
<ProxyContextPath></ProxyContextPath>
-->
<!-- In-order to get the registry http Port from the back-end when the default http transport is not the same-->
<!--RegistryHttpPort>9763</RegistryHttpPort-->
<!--
Number of items to be displayed on a management console page. This is used at the
backend server for pagination of various items.
-->
<ItemsPerPage>15</ItemsPerPage>
<!-- The endpoint URL of the cloud instance management Web service -->
<!--<InstanceMgtWSEndpoint>https://ec2.amazonaws.com/</InstanceMgtWSEndpoint>-->
<!--
Ports used by this server
-->
<Ports>
<!-- Ports offset. This entry will set the value of the ports defined below to
the define value + Offset.
e.g. Offset=2 and HTTPS port=9443 will set the effective HTTPS port to 9445
-->
<Offset>0</Offset>
<!-- The JMX Ports -->
<JMX>
<!--The port RMI registry is exposed-->
<RMIRegistryPort>9999</RMIRegistryPort>
<!--The port RMI server should be exposed-->
<RMIServerPort>11111</RMIServerPort>
</JMX>
<!-- Embedded LDAP server specific ports -->
<EmbeddedLDAP>
<!-- Port which embedded LDAP server runs -->
<LDAPServerPort>10389</LDAPServerPort>
<!-- Port which KDC (Kerberos Key Distribution Center) server runs -->
<KDCServerPort>8000</KDCServerPort>
</EmbeddedLDAP>
<!--
Override datasources JNDIproviderPort defined in bps.xml and datasources.properties files
-->
<!--<JNDIProviderPort>2199</JNDIProviderPort>-->
<!--Override receive port of thrift based entitlement service.-->
<ThriftEntitlementReceivePort>10500</ThriftEntitlementReceivePort>
</Ports>
<!--
JNDI Configuration
-->
<JNDI>
<!--
The fully qualified name of the default initial context factory
-->
<DefaultInitialContextFactory>org.wso2.carbon.tomcat.jndi.CarbonJavaURLContextFactory</DefaultInitialContextFactory>
<!--
The restrictions that are done to various JNDI Contexts in a Multi-tenant environment
-->
<Restrictions>
<!--
Contexts that will be available only to the super-tenant
-->
<!-- <SuperTenantOnly>
<UrlContexts>
<UrlContext>
<Scheme>foo</Scheme>
</UrlContext>
<UrlContext>
<Scheme>bar</Scheme>
</UrlContext>
</UrlContexts>
</SuperTenantOnly> -->
<!--
Contexts that are common to all tenants
-->
<AllTenants>
<UrlContexts>
<UrlContext>
<Scheme>java</Scheme>
</UrlContext>
<!-- <UrlContext>
<Scheme>foo</Scheme>
</UrlContext> -->
</UrlContexts>
</AllTenants>
<!--
All other contexts not mentioned above will be available on a per-tenant basis
(i.e. will not be shared among tenants)
-->
</Restrictions>
</JNDI>
<!--
Property to determine if the server is running an a cloud deployment environment.
This property should only be used to determine deployment specific details that are
applicable only in a cloud deployment, i.e when the server deployed *-as-a-service.
-->
<IsCloudDeployment>false</IsCloudDeployment>
<!--
Property to determine whether usage data should be collected for metering purposes
-->
<EnableMetering>false</EnableMetering>
<!-- The Max time a thread should take for execution in seconds -->
<MaxThreadExecutionTime>600</MaxThreadExecutionTime>
<!--
A flag to enable or disable Ghost Deployer. By default this is set to false. That is
because the Ghost Deployer works only with the HTTP/S transports. If you are using
other transports, don't enable Ghost Deployer.
-->
<GhostDeployment>
<Enabled>false</Enabled>
</GhostDeployment>
<!--
Eager loading or lazy loading is a design pattern commonly used in computer programming which
will initialize an object upon creation or load on-demand. In carbon, lazy loading is used to
load tenant when a request is received only. Similarly Eager loading is used to enable load
existing tenants after carbon server starts up. Using this feature, you will be able to include
or exclude tenants which are to be loaded when server startup.
We can enable only one LoadingPolicy at a given time.
1. Tenant Lazy Loading
This is the default behaviour and enabled by default. With this policy, tenants are not loaded at
server startup, but loaded based on-demand (i.e when a request is received for a tenant).
The default tenant idle time is 30 minutes.
2. Tenant Eager Loading
This is by default not enabled. It can be be enabled by un-commenting the <EagerLoading> section.
The eager loading configurations supported are as below. These configurations can be given as the
value for <Include> element with eager loading.
(i)Load all tenants when server startup - *
(ii)Load all tenants except foo.com & bar.com - *,!foo.com,!bar.com
(iii)Load only foo.com & bar.com to be included - foo.com,bar.com
-->
<Tenant>
<LoadingPolicy>
<LazyLoading>
<IdleTime>30</IdleTime>
</LazyLoading>
<!-- <EagerLoading>
<Include>*,!foo.com,!bar.com</Include>
</EagerLoading>-->
</LoadingPolicy>
</Tenant>
<!--
Caching related configurations
-->
<Cache>
<!-- Default cache timeout in minutes -->
<DefaultCacheTimeout>15</DefaultCacheTimeout>
</Cache>
<!--
Axis2 related configurations
-->
<Axis2Config>
<!--
Location of the Axis2 Services & Modules repository
This can be a directory in the local file system, or a URL.
e.g.
1. /home/wso2wsas/repository/ - An absolute path
2. repository - In this case, the path is relative to CARBON_HOME
3. file:///home/wso2wsas/repository/
4. http://wso2wsas/repository/
-->
<RepositoryLocation>${carbon.home}/repository/deployment/server/</RepositoryLocation>
<!--
Deployment update interval in seconds. This is the interval between repository listener
executions.
-->
<DeploymentUpdateInterval>15</DeploymentUpdateInterval>
<!--
Location of the main Axis2 configuration descriptor file, a.k.a. axis2.xml file
This can be a file on the local file system, or a URL
e.g.
1. /home/repository/axis2.xml - An absolute path
2. conf/axis2.xml - In this case, the path is relative to CARBON_HOME
3. file:///home/carbon/repository/axis2.xml
4. http://repository/conf/axis2.xml
-->
<ConfigurationFile>${carbon.home}/repository/conf/axis2/axis2.xml</ConfigurationFile>
<!--
ServiceGroupContextIdleTime, which will be set in ConfigurationContex
for multiple clients which are going to access the same ServiceGroupContext
Default Value is 30 Sec.
-->
<ServiceGroupContextIdleTime>30000</ServiceGroupContextIdleTime>
<!--
This repository location is used to crete the client side configuration
context used by the server when calling admin services.
-->
<ClientRepositoryLocation>${carbon.home}/repository/deployment/client/</ClientRepositoryLocation>
<!-- This axis2 xml is used in createing the configuration context by the FE server
calling to BE server -->
<clientAxis2XmlLocation>${carbon.home}/repository/conf/axis2/axis2_client.xml</clientAxis2XmlLocation>
<!-- If this parameter is set, the ?wsdl on an admin service will not give the admin service wsdl. -->
<HideAdminServiceWSDLs>true</HideAdminServiceWSDLs>
<!--WARNING-Use With Care! Uncommenting bellow parameter would expose all AdminServices in HTTP transport.
With HTTP transport your credentials and data routed in public channels are vulnerable for sniffing attacks.
Use bellow parameter ONLY if your communication channels are confirmed to be secured by other means -->
<!--HttpAdminServices>*</HttpAdminServices-->
</Axis2Config>
<!--
The default user roles which will be created when the server
is started up for the first time.
-->
<ServiceUserRoles>
<Role>
<Name>admin</Name>
<Description>Default Administrator Role</Description>
</Role>
<Role>
<Name>user</Name>
<Description>Default User Role</Description>
</Role>
</ServiceUserRoles>
<!--
Enable following config to allow Emails as usernames.
-->
<!--EnableEmailUserName>true</EnableEmailUserName-->
<!--
Security configurations
-->
<Security>
<!--
KeyStore which will be used for encrypting/decrypting passwords
and other sensitive information.
-->
<KeyStore>
<!-- Keystore file location-->
<Location>${carbon.home}/repository/resources/security/wso2carbon.jks</Location>
<!-- Keystore type (JKS/PKCS12 etc.)-->
<Type>JKS</Type>
<!-- Keystore password-->
<Password>wso2carbon</Password>
<!-- Private Key alias-->
<KeyAlias>wso2carbon</KeyAlias>
<!-- Private Key password-->
<KeyPassword>wso2carbon</KeyPassword>
</KeyStore>
<!--
System wide trust-store which is used to maintain the certificates of all
the trusted parties.
-->
<TrustStore>
<!-- trust-store file location -->
<Location>${carbon.home}/repository/resources/security/client-truststore.jks</Location>
<!-- trust-store type (JKS/PKCS12 etc.) -->
<Type>JKS</Type>
<!-- trust-store password -->
<Password>wso2carbon</Password>
</TrustStore>
<!--
The Authenticator configuration to be used at the JVM level. We extend the
java.net.Authenticator to make it possible to authenticate to given servers and
proxies.
-->
<NetworkAuthenticatorConfig>
<!--
Below is a sample configuration for a single authenticator. Please note that
all child elements are mandatory. Not having some child elements would lead to
exceptions at runtime.
-->
<!-- <Credential> -->
<!--
the pattern that would match a subset of URLs for which this authenticator
would be used
-->
<!-- <Pattern>regularExpression</Pattern> -->
<!--
the type of this authenticator. Allowed values are:
1. server
2. proxy
-->
<!-- <Type>proxy</Type> -->
<!-- the username used to log in to server/proxy -->
<!-- <Username>username</Username> -->
<!-- the password used to log in to server/proxy -->
<!-- <Password>password</Password> -->
<!-- </Credential> -->
</NetworkAuthenticatorConfig>
<!--
The Tomcat realm to be used for hosted Web applications. Allowed values are;
1. UserManager
2. Memory
If this is set to 'UserManager', the realm will pick users & roles from the system's
WSO2 User Manager. If it is set to 'memory', the realm will pick users & roles from
CARBON_HOME/repository/conf/tomcat/tomcat-users.xml
-->
<TomcatRealm>UserManager</TomcatRealm>
<!--Option to disable storing of tokens issued by STS-->
<DisableTokenStore>false</DisableTokenStore>
<!--
Security token store class name. If this is not set, default class will be
org.wso2.carbon.security.util.SecurityTokenStore
-->
<!--TokenStoreClassName>org.wso2.carbon.identity.sts.store.DBTokenStore</TokenStoreClassName-->
</Security>
<!--
The temporary work directory
-->
<WorkDirectory>${carbon.home}/tmp/work</WorkDirectory>
<!--
House-keeping configuration
-->
<HouseKeeping>
<!--
true - Start House-keeping thread on server startup
false - Do not start House-keeping thread on server startup.
The user will run it manually as and when he wishes.
-->
<AutoStart>true</AutoStart>
<!--
The interval in *minutes*, between house-keeping runs
-->
<Interval>10</Interval>
<!--
The maximum time in *minutes*, temp files are allowed to live
in the system. Files/directories which were modified more than
"MaxTempFileLifetime" minutes ago will be removed by the
house-keeping task
-->
<MaxTempFileLifetime>30</MaxTempFileLifetime>
</HouseKeeping>
<!--
Configuration for handling different types of file upload & other file uploading related
config parameters.
To map all actions to a particular FileUploadExecutor, use
<Action>*</Action>
-->
<FileUploadConfig>
<!--
The total file upload size limit in MB
-->
<TotalFileSizeLimit>100</TotalFileSizeLimit>
<Mapping>
<Actions>
<Action>keystore</Action>
<Action>certificate</Action>
<Action>*</Action>
</Actions>
<Class>org.wso2.carbon.ui.transports.fileupload.AnyFileUploadExecutor</Class>
</Mapping>
<Mapping>
<Actions>
<Action>jarZip</Action>
</Actions>
<Class>org.wso2.carbon.ui.transports.fileupload.JarZipUploadExecutor</Class>
</Mapping>
<Mapping>
<Actions>
<Action>dbs</Action>
</Actions>
<Class>org.wso2.carbon.ui.transports.fileupload.DBSFileUploadExecutor</Class>
</Mapping>
<Mapping>
<Actions>
<Action>tools</Action>
</Actions>
<Class>org.wso2.carbon.ui.transports.fileupload.ToolsFileUploadExecutor</Class>
</Mapping>
<Mapping>
<Actions>
<Action>toolsAny</Action>
</Actions>
<Class>org.wso2.carbon.ui.transports.fileupload.ToolsAnyFileUploadExecutor</Class>
</Mapping>
</FileUploadConfig>
<!--
Processors which process special HTTP GET requests such as ?wsdl, ?policy etc.
In order to plug in a processor to handle a special request, simply add an entry to this
section.
The value of the Item element is the first parameter in the query string(e.g. ?wsdl)
which needs special processing
The value of the Class element is a class which implements
org.wso2.carbon.transport.HttpGetRequestProcessor
-->
<HttpGetRequestProcessors>
<Processor>
<Item>info</Item>
<Class>org.wso2.carbon.core.transports.util.InfoProcessor</Class>
</Processor>
<Processor>
<Item>wsdl</Item>
<Class>org.wso2.carbon.core.transports.util.Wsdl11Processor</Class>
</Processor>
<Processor>
<Item>wsdl2</Item>
<Class>org.wso2.carbon.core.transports.util.Wsdl20Processor</Class>
</Processor>
<Processor>
<Item>xsd</Item>
<Class>org.wso2.carbon.core.transports.util.XsdProcessor</Class>
</Processor>
</HttpGetRequestProcessors>
<!-- Deployment Synchronizer Configuration. t Enabled value to true when running with "svn based" dep sync.
In master nodes you need to set both AutoCommit and AutoCheckout to true
and in worker nodes set only AutoCheckout to true.
-->
<DeploymentSynchronizer>
<Enabled>false</Enabled>
<AutoCommit>false</AutoCommit>
<AutoCheckout>true</AutoCheckout>
<RepositoryType>svn</RepositoryType>
<SvnUrl>http://svnrepo.example.com/repos/</SvnUrl>
<SvnUser>username</SvnUser>
<SvnPassword>password</SvnPassword>
<SvnUrlAppendTenantId>true</SvnUrlAppendTenantId>
</DeploymentSynchronizer>
<!-- Deployment Synchronizer Configuration. Uncomment the following section when running with "registry based" dep sync.
In master nodes you need to set both AutoCommit and AutoCheckout to true
and in worker nodes set only AutoCheckout to true.
-->
<!--<DeploymentSynchronizer>
<Enabled>true</Enabled>
<AutoCommit>false</AutoCommit>
<AutoCheckout>true</AutoCheckout>
</DeploymentSynchronizer>-->
<!-- Mediation persistence configurations. Only valid if mediation features are available i.e. ESB -->
<!--<MediationConfig>
<LoadFromRegistry>false</LoadFromRegistry>
<SaveToFile>false</SaveToFile>
<Persistence>enabled</Persistence>
<RegistryPersistence>enabled</RegistryPersistence>
</MediationConfig>-->
<!--
Server intializing code, specified as implementation classes of org.wso2.carbon.core.ServerInitializer.
This code will be run when the Carbon server is initialized
-->
<ServerInitializers>
<!--<Initializer></Initializer>-->
</ServerInitializers>
<!--
Indicates whether the Carbon Servlet is required by the system, and whether it should be
registered
-->
<RequireCarbonServlet>${require.carbon.servlet}</RequireCarbonServlet>
<!--
Carbon H2 OSGI Configuration
By default non of the servers start.
name="web" - Start the web server with the H2 Console
name="webPort" - The port (default: 8082)
name="webAllowOthers" - Allow other computers to connect
name="webSSL" - Use encrypted (HTTPS) connections
name="tcp" - Start the TCP server
name="tcpPort" - The port (default: 9092)
name="tcpAllowOthers" - Allow other computers to connect
name="tcpSSL" - Use encrypted (SSL) connections
name="pg" - Start the PG server
name="pgPort" - The port (default: 5435)
name="pgAllowOthers" - Allow other computers to connect
name="trace" - Print additional trace information; for all servers
name="baseDir" - The base directory for H2 databases; for all servers
-->
<!--H2DatabaseConfiguration>
<property name="web" />
<property name="webPort">8082</property>
<property name="webAllowOthers" />
<property name="webSSL" />
<property name="tcp" />
<property name="tcpPort">9092</property>
<property name="tcpAllowOthers" />
<property name="tcpSSL" />
<property name="pg" />
<property name="pgPort">5435</property>
<property name="pgAllowOthers" />
<property name="trace" />
<property name="baseDir">${carbon.home}</property>
</H2DatabaseConfiguration-->
<!--Disabling statistics reporter by default-->
<StatisticsReporterDisabled>true</StatisticsReporterDisabled>
<!-- Enable accessing Admin Console via HTTP -->
<!-- EnableHTTPAdminConsole>true</EnableHTTPAdminConsole -->
<!--
Default Feature Repository of WSO2 Carbon.
-->
<FeatureRepository>
<RepositoryName>default repository</RepositoryName>
<RepositoryURL>${p2.repo.url}</RepositoryURL>
</FeatureRepository>
<!--
Configure API Management
-->
<APIManagement>
<!--Uses the embedded API Manager by default. If you want to use an external
API Manager instance to manage APIs, configure below externalAPIManager-->
<Enabled>true</Enabled>
<!--Uncomment and configure API Gateway and
Publisher URLs to use external API Manager instance-->
<!--ExternalAPIManager>
<APIGatewayURL>http://localhost:8281</APIGatewayURL>
<APIPublisherURL>http://localhost:8281/publisher</APIPublisherURL>
</ExternalAPIManager-->
<LoadAPIContextsInServerStartup>true</LoadAPIContextsInServerStartup>
</APIManagement>
</Server>

@ -0,0 +1,106 @@
<?xml version="1.0" encoding="ISO-8859-1"?>
<!--
~ Copyright 2005-2017 WSO2 Inc. (http://wso2.com)
~
~ Licensed under the Apache License, Version 2.0 (the "License");
~ you may not use this file except in compliance with the License.
~ You may obtain a copy of the License at
~
~ http://www.apache.org/licenses/LICENSE-2.0
~
~ Unless required by applicable law or agreed to in writing, software
~ distributed under the License is distributed on an "AS IS" BASIS,
~ WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
~ See the License for the specific language governing permissions and
~ limitations under the License.
-->
<wso2registry>
<!--
For details on configuring different config & governance registries see;
http://wso2.org/library/tutorials/2010/04/sharing-registry-space-across-multiple-product-instances
-->
<currentDBConfig>wso2registry</currentDBConfig>
<readOnly>false</readOnly>
<enableCache>true</enableCache>
<registryRoot>/</registryRoot>
<dbConfig name="wso2registry">
<url>jdbc:h2:./target/databasetest/CARBON_TEST</url>
<!--userName>sa</userName>
<password>sa</password-->
<driverName>org.h2.Driver</driverName>
<maxActive>80</maxActive>
<maxWait>60000</maxWait>
<minIdle>5</minIdle>
</dbConfig>
<!--<handler class="org.wso2.carbon.registry.extensions.handlers.SynapseRepositoryHandler">
<filter class="org.wso2.carbon.registry.core.jdbc.handlers.filters.MediaTypeMatcher">
<property name="mediaType">application/vnd.apache.synapse</property>
</filter>
</handler>
<handler class="org.wso2.carbon.registry.extensions.handlers.SynapseRepositoryHandler">
<filter class="org.wso2.carbon.registry.core.jdbc.handlers.filters.MediaTypeMatcher">
<property name="mediaType">application/vnd.apache.esb</property>
</filter>
</handler>
<handler class="org.wso2.carbon.registry.extensions.handlers.Axis2RepositoryHandler">
<filter class="org.wso2.carbon.registry.core.jdbc.handlers.filters.MediaTypeMatcher">
<property name="mediaType">application/vnd.apache.axis2</property>
</filter>
</handler>
<handler class="org.wso2.carbon.registry.extensions.handlers.Axis2RepositoryHandler">
<filter class="org.wso2.carbon.registry.core.jdbc.handlers.filters.MediaTypeMatcher">
<property name="mediaType">application/vnd.apache.wsas</property>
</filter>
</handler>
<handler class="org.wso2.carbon.registry.extensions.handlers.WSDLMediaTypeHandler">
<filter class="org.wso2.carbon.registry.core.jdbc.handlers.filters.MediaTypeMatcher">
<property name="mediaType">application/wsdl+xml</property>
</filter>
</handler>
<handler class="org.wso2.carbon.registry.extensions.handlers.XSDMediaTypeHandler">
<filter class="org.wso2.carbon.registry.core.jdbc.handlers.filters.MediaTypeMatcher">
<property name="mediaType">application/x-xsd+xml</property>
</filter>
</handler> -->
<!--remoteInstance url="https://localhost:9443/registry">
<id>instanceid</id>
<username>username</username>
<password>password</password>
</remoteInstance-->
<!--remoteInstance url="https://localhost:9443/registry">
<id>instanceid</id>
<dbConfig>wso2registry</dbConfig>
<readOnly>false</readOnly>
<enableCache>true</enableCache>
<registryRoot>/</registryRoot>
</remoteInstance-->
<!--mount path="/_system/config" overwrite="true|false|virtual">
<instanceId>instanceid</instanceId>
<targetPath>/_system/nodes</targetPath>
</mount-->
<versionResourcesOnChange>false</versionResourcesOnChange>
<!-- NOTE: You can edit the options under "StaticConfiguration" only before the
startup. -->
<staticConfiguration>
<versioningProperties>true</versioningProperties>
<versioningComments>true</versioningComments>
<versioningTags>true</versioningTags>
<versioningRatings>true</versioningRatings>
</staticConfiguration>
</wso2registry>

@ -24,6 +24,7 @@
<test name="DeviceType Manager Service Test Cases" preserve-order="true"> <test name="DeviceType Manager Service Test Cases" preserve-order="true">
<classes> <classes>
<class name="org.wso2.carbon.device.mgt.extensions.device.type.template.DeviceTypeManagerServiceTest"/> <class name="org.wso2.carbon.device.mgt.extensions.device.type.template.DeviceTypeManagerServiceTest"/>
<class name="org.wso2.carbon.device.mgt.extensions.device.type.template.DeviceTypeManagerTest"/>
</classes> </classes>
</test> </test>
</suite> </suite>

@ -0,0 +1,80 @@
<!--
~ Copyright (c) 2005-2011, WSO2 Inc. (http://www.wso2.org) All Rights Reserved.
~
~ WSO2 Inc. licenses this file to you under the Apache License,
~ Version 2.0 (the "License"); you may not use this file except
~ in compliance with the License.
~ You may obtain a copy of the License at
~
~ http://www.apache.org/licenses/LICENSE-2.0
~
~ Unless required by applicable law or agreed to in writing,
~ software distributed under the License is distributed on an
~ "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
~ KIND, either express or implied. See the License for the
~ specific language governing permissions and limitations
~ under the License.
-->
<UserManager>
<Realm>
<Configuration>
<AddAdmin>true</AddAdmin>
<AdminRole>admin</AdminRole>
<AdminUser>
<UserName>admin</UserName>
<Password>admin</Password>
</AdminUser>
<EveryOneRoleName>everyone</EveryOneRoleName>
<ReadOnly>false</ReadOnly>
<MaxUserNameListLength>500</MaxUserNameListLength>
<Property name="url">jdbc:h2:target/databasetest/CARBON_TEST</Property>
<Property name="driverName">org.h2.Driver</Property>
<Property name="maxActive">50</Property>
<Property name="maxWait">60000</Property>
<Property name="minIdle">5</Property>
</Configuration>
<UserStoreManager class="org.wso2.carbon.user.core.jdbc.JDBCUserStoreManager">
<Property name="TenantManager">org.wso2.carbon.user.core.tenant.JDBCTenantManager</Property>
<Property name="ReadOnly">false</Property>
<Property name="MaxUserNameListLength">100</Property>
<Property name="IsEmailUserName">false</Property>
<Property name="DomainCalculation">default</Property>
<Property name="PasswordDigest">SHA-256</Property>
<Property name="StoreSaltedPassword">true</Property>
<Property name="ReadGroups">true</Property>
<Property name="WriteGroups">true</Property>
<Property name="UserNameUniqueAcrossTenants">false</Property>
<Property name="PasswordJavaRegEx">^[\S]{5,30}$</Property>
<Property name="PasswordJavaRegExViolationErrorMsg">Password length should be between 5 to 30 characters
</Property>
<Property name="PasswordJavaScriptRegEx">^[\S]{5,30}$</Property>
<Property name="UsernameJavaRegEx">[a-zA-Z0-9._-|//]{3,30}$</Property>
<Property name="UsernameJavaScriptRegEx">^[\S]{3,30}$</Property>
<Property name="RolenameJavaRegEx">^[^~!#$;%^*+={}\\|\\\\&lt;&gt;,\'\"]{3,30}$</Property>
<Property name="RolenameJavaScriptRegEx">^[\S]{3,30}$</Property>
<Property name="UserRolesCacheEnabled">true</Property>
<Property name="MaxRoleNameListLength">100</Property>
<Property name="MaxUserNameListLength">100</Property>
<Property name="SharedGroupEnabled">false</Property>
<Property name="SCIMEnabled">false</Property>
<Property name="CaseSensitiveUsername">true</Property>
<Property name="MultiAttributeSeparator">,</Property>
<Property name="BulkImportSupported">true</Property>
</UserStoreManager>
<AuthorizationManager
class="org.wso2.carbon.user.core.authorization.JDBCAuthorizationManager">
<Property name="AuthorizationCacheEnabled">true</Property>
</AuthorizationManager>
</Realm>
<SystemPermission>
<Permission>login</Permission>
<Permission>manage-configuration</Permission>
<Permission>manage-security</Permission>
<Permission>upload-services</Permission>
<Permission>manage-services</Permission>
<Permission>manage-lc-configuration</Permission>
<Permission>manage-mediation</Permission>
<Permission>monitor-system</Permission>
<Permission>delegate-identity</Permission>
</SystemPermission>
</UserManager>
Loading…
Cancel
Save