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/*
* Copyright 2004-2011 H2 Group.
* Copyright 2011 James Moger.
*
* 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.
*/
package com.iciql;
import java.sql.Connection;
import java.sql.DatabaseMetaData;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.sql.Statement;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Set;
import javax.sql.DataSource;
import com.iciql.DbUpgrader.DefaultDbUpgrader;
import com.iciql.Iciql.IQTable;
import com.iciql.Iciql.IQVersion;
import com.iciql.util.JdbcUtils;
import com.iciql.util.IciqlLogger;
import com.iciql.util.StringUtils;
import com.iciql.util.Utils;
import com.iciql.util.WeakIdentityHashMap;
/**
* This class represents a connection to a database.
*/
public class Db {
/**
* This map It holds unique tokens that are generated by functions such as
* Function.sum(..) in "db.from(p).select(Function.sum(p.unitPrice))". It
* doesn't actually hold column tokens, as those are bound to the query
* itself.
*/
private static final Map<Object, Token> TOKENS;
private static final Map<String, Class<? extends SQLDialect>> DIALECTS;
private final Connection conn;
private final Map<Class<?>, TableDefinition<?>> classMap = Collections
.synchronizedMap(new HashMap<Class<?>, TableDefinition<?>>());
private final SQLDialect dialect;
private DbUpgrader dbUpgrader = new DefaultDbUpgrader();
private final Set<Class<?>> upgradeChecked = Collections.synchronizedSet(new HashSet<Class<?>>());
static {
TOKENS = Collections.synchronizedMap(new WeakIdentityHashMap<Object, Token>());
DIALECTS = Collections.synchronizedMap(new HashMap<String, Class<? extends SQLDialect>>());
// can register by...
// 1. Connection class name
// 2. DatabaseMetaData.getDatabaseProductName()
DIALECTS.put("Apache Derby", SQLDialectDerby.class);
DIALECTS.put("H2", SQLDialectH2.class);
DIALECTS.put("HSQL Database Engine", SQLDialectHSQL.class);
DIALECTS.put("MySQL", SQLDialectMySQL.class);
DIALECTS.put("PostgreSQL", SQLDialectPostgreSQL.class);
}
private Db(Connection conn) {
this.conn = conn;
String databaseName = null;
DatabaseMetaData data = null;
try {
data = conn.getMetaData();
databaseName = data.getDatabaseProductName();
} catch (SQLException s) {
throw new IciqlException(s, "failed to retrieve database metadata!");
}
dialect = getDialect(databaseName, conn.getClass().getName());
dialect.configureDialect(databaseName, data);
}
/**
* Register a new/custom dialect class. You can use this method to replace
* any existing dialect or to add a new one.
*
* @param token
* the fully qualified name of the connection class or the
* expected result of DatabaseMetaData.getDatabaseProductName()
* @param dialectClass
* the dialect class to register
*/
public static void registerDialect(String token, Class<? extends SQLDialect> dialectClass) {
DIALECTS.put(token, dialectClass);
}
SQLDialect getDialect(String databaseName, String className) {
Class<? extends SQLDialect> dialectClass = null;
if (DIALECTS.containsKey(className)) {
// dialect registered by connection class name
dialectClass = DIALECTS.get(className);
} else if (DIALECTS.containsKey(databaseName)) {
// dialect registered by database name
dialectClass = DIALECTS.get(databaseName);
} else {
// did not find a match, use default
dialectClass = SQLDialectDefault.class;
}
return instance(dialectClass);
}
static <X> X registerToken(X x, Token token) {
TOKENS.put(x, token);
return x;
}
static Token getToken(Object x) {
return TOKENS.get(x);
}
static <T> T instance(Class<T> clazz) {
try {
return clazz.newInstance();
} catch (Exception e) {
throw new IciqlException(e);
}
}
public static Db open(String url) {
try {
Connection conn = JdbcUtils.getConnection(null, url, null, null);
return new Db(conn);
} catch (SQLException e) {
throw new IciqlException(e);
}
}
public static Db open(String url, String user, String password) {
try {
Connection conn = JdbcUtils.getConnection(null, url, user, password);
return new Db(conn);
} catch (SQLException e) {
throw new IciqlException(e);
}
}
/**
* Create a new database instance using a data source. This method is fast,
* so that you can always call open() / close() on usage.
*
* @param ds
* the data source
* @return the database instance.
*/
public static Db open(DataSource ds) {
try {
return new Db(ds.getConnection());
} catch (SQLException e) {
throw new IciqlException(e);
}
}
public static Db open(Connection conn) {
return new Db(conn);
}
public static Db open(String url, String user, char[] password) {
try {
Properties prop = new Properties();
prop.setProperty("user", user);
prop.put("password", password);
Connection conn = JdbcUtils.getConnection(null, url, prop);
return new Db(conn);
} catch (SQLException e) {
throw new IciqlException(e);
}
}
public <T> void insert(T t) {
Class<?> clazz = t.getClass();
long rc = define(clazz).createIfRequired(this).insert(this, t, false);
if (rc == 0) {
throw new IciqlException("Failed to insert {0}. Affected rowcount == 0.", t);
}
}
public <T> long insertAndGetKey(T t) {
Class<?> clazz = t.getClass();
return define(clazz).createIfRequired(this).insert(this, t, true);
}
/**
* Merge INSERTS if the record does not exist or UPDATES the record if it
* does exist. Not all databases support MERGE and the syntax varies with
* the database.
*
* If the database does not support a MERGE syntax the dialect can try to
* simulate a merge by implementing:
* <p>
* INSERT INTO foo... (SELECT ?,... FROM foo WHERE pk=? HAVING count(*)=0)
* <p>
* iciql will check the affected row count returned by the internal merge
* method and if the affected row count = 0, it will issue an update.
* <p>
* See the Derby dialect for an implementation of this technique.
* <p>
* If the dialect does not support merge an IciqlException will be thrown.
*
* @param t
*/
public <T> void merge(T t) {
Class<?> clazz = t.getClass();
TableDefinition<?> def = define(clazz).createIfRequired(this);
int rc = def.merge(this, t);
if (rc == 0) {
rc = def.update(this, t);
}
if (rc == 0) {
throw new IciqlException("merge failed");
}
}
public <T> int update(T t) {
Class<?> clazz = t.getClass();
return define(clazz).createIfRequired(this).update(this, t);
}
public <T> int delete(T t) {
Class<?> clazz = t.getClass();
return define(clazz).createIfRequired(this).delete(this, t);
}
public <T extends Object> Query<T> from(T alias) {
Class<?> clazz = alias.getClass();
define(clazz).createIfRequired(this);
return Query.from(this, alias);
}
@SuppressWarnings("unchecked")
public <T> int dropTable(Class<? extends T> modelClass) {
TableDefinition<T> def = (TableDefinition<T>) define(modelClass);
SQLStatement stat = new SQLStatement(this);
getDialect().prepareDropTable(stat, def);
IciqlLogger.drop(stat.getSQL());
int rc = 0;
try {
rc = stat.executeUpdate();
} catch (IciqlException e) {
if (e.getIciqlCode() != IciqlException.CODE_OBJECT_NOT_FOUND) {
throw e;
}
}
// remove this model class from the table definition cache
classMap.remove(modelClass);
return rc;
}
@SuppressWarnings("unchecked")
public <T> List<T> buildObjects(Class<? extends T> modelClass, ResultSet rs) {
List<T> result = new ArrayList<T>();
TableDefinition<T> def = (TableDefinition<T>) define(modelClass);
try {
while (rs.next()) {
T item = Utils.newObject(modelClass);
def.readRow(item, rs);
result.add(item);
}
} catch (SQLException e) {
throw new IciqlException(e);
}
return result;
}
Db upgradeDb() {
if (!upgradeChecked.contains(dbUpgrader.getClass())) {
// flag as checked immediately because calls are nested.
upgradeChecked.add(dbUpgrader.getClass());
IQVersion model = dbUpgrader.getClass().getAnnotation(IQVersion.class);
if (model.value() > 0) {
DbVersion v = new DbVersion();
// (SCHEMA="" && TABLE="") == DATABASE
DbVersion dbVersion = from(v).where(v.schemaName).is("").and(v.tableName).is("")
.selectFirst();
if (dbVersion == null) {
// database has no version registration, but model specifies
// version: insert DbVersion entry and return.
DbVersion newDb = new DbVersion(model.value());
// database is an older version than the model
boolean success = dbUpgrader.upgradeDatabase(this, 0, newDb.version);
if (success) {
insert(newDb);
}
} else {
// database has a version registration:
// check to see if upgrade is required.
if ((model.value() > dbVersion.version) && (dbUpgrader != null)) {
// database is an older version than the model
boolean success = dbUpgrader.upgradeDatabase(this, dbVersion.version, model.value());
if (success) {
dbVersion.version = model.value();
update(dbVersion);
}
}
}
}
}
return this;
}
<T> void upgradeTable(TableDefinition<T> model) {
if (!upgradeChecked.contains(model.getModelClass())) {
// flag is checked immediately because calls are nested
upgradeChecked.add(model.getModelClass());
if (model.tableVersion > 0) {
// table is using iciql version tracking.
DbVersion v = new DbVersion();
String schema = StringUtils.isNullOrEmpty(model.schemaName) ? "" : model.schemaName;
DbVersion dbVersion = from(v).where(v.schemaName).is(schema).and(v.tableName)
.is(model.tableName).selectFirst();
if (dbVersion == null) {
// table has no version registration, but model specifies
// version: insert DbVersion entry
DbVersion newTable = new DbVersion(model.tableVersion);
newTable.schemaName = schema;
newTable.tableName = model.tableName;
insert(newTable);
} else {
// table has a version registration:
// check if upgrade is required
if ((model.tableVersion > dbVersion.version) && (dbUpgrader != null)) {
// table is an older version than model
boolean success = dbUpgrader.upgradeTable(this, schema, model.tableName,
dbVersion.version, model.tableVersion);
if (success) {
dbVersion.version = model.tableVersion;
update(dbVersion);
}
}
}
}
}
}
<T> TableDefinition<T> define(Class<T> clazz) {
TableDefinition<T> def = getTableDefinition(clazz);
if (def == null) {
upgradeDb();
def = new TableDefinition<T>(clazz);
def.mapFields();
classMap.put(clazz, def);
if (Iciql.class.isAssignableFrom(clazz)) {
T t = instance(clazz);
Iciql table = (Iciql) t;
Define.define(def, table);
} else if (clazz.isAnnotationPresent(IQTable.class)) {
// annotated classes skip the Define().define() static
// initializer
T t = instance(clazz);
def.mapObject(t);
}
}
return def;
}
public synchronized void setDbUpgrader(DbUpgrader upgrader) {
if (!upgrader.getClass().isAnnotationPresent(IQVersion.class)) {
throw new IciqlException("DbUpgrader must be annotated with " + IQVersion.class.getSimpleName());
}
this.dbUpgrader = upgrader;
upgradeChecked.clear();
}
public SQLDialect getDialect() {
return dialect;
}
public Connection getConnection() {
return conn;
}
public void close() {
try {
conn.close();
} catch (Exception e) {
throw new IciqlException(e);
}
}
public <A> TestCondition<A> test(A x) {
return new TestCondition<A>(x);
}
public <T> void insertAll(List<T> list) {
for (T t : list) {
insert(t);
}
}
public <T> List<Long> insertAllAndGetKeys(List<T> list) {
List<Long> identities = new ArrayList<Long>();
for (T t : list) {
identities.add(insertAndGetKey(t));
}
return identities;
}
public <T> void updateAll(List<T> list) {
for (T t : list) {
update(t);
}
}
public <T> void deleteAll(List<T> list) {
for (T t : list) {
delete(t);
}
}
PreparedStatement prepare(String sql, boolean returnGeneratedKeys) {
IciqlException.checkUnmappedField(sql);
try {
if (returnGeneratedKeys) {
return conn.prepareStatement(sql, Statement.RETURN_GENERATED_KEYS);
}
return conn.prepareStatement(sql);
} catch (SQLException e) {
throw IciqlException.fromSQL(sql, e);
}
}
@SuppressWarnings("unchecked")
<T> TableDefinition<T> getTableDefinition(Class<T> clazz) {
return (TableDefinition<T>) classMap.get(clazz);
}
/**
* Run a SQL query directly against the database.
*
* Be sure to close the ResultSet with
*
* <pre>
* JdbcUtils.closeSilently(rs, true);
* </pre>
*
* @param sql
* the SQL statement
* @param args
* optional object arguments for x=? tokens in query
* @return the result set
*/
public ResultSet executeQuery(String sql, Object... args) {
try {
if (args.length == 0) {
return conn.createStatement().executeQuery(sql);
} else {
PreparedStatement stat = conn.prepareStatement(sql);
int i = 1;
for (Object arg : args) {
stat.setObject(i++, arg);
}
return stat.executeQuery();
}
} catch (SQLException e) {
throw new IciqlException(e);
}
}
/**
* Run a SQL query directly against the database and map the results to the
* model class.
*
* @param modelClass
* the model class to bind the query ResultSet rows into.
* @param sql
* the SQL statement
* @return the result set
*/
public <T> List<T> executeQuery(Class<? extends T> modelClass, String sql, Object... args) {
ResultSet rs = null;
try {
if (args.length == 0) {
rs = conn.createStatement().executeQuery(sql);
} else {
PreparedStatement stat = conn.prepareStatement(sql);
int i = 1;
for (Object arg : args) {
stat.setObject(i++, arg);
}
rs = stat.executeQuery();
}
return buildObjects(modelClass, rs);
} catch (SQLException e) {
throw new IciqlException(e);
} finally {
JdbcUtils.closeSilently(rs, true);
}
}
/**
* Run a SQL statement directly against the database.
*
* @param sql
* the SQL statement
* @return the update count
*/
public int executeUpdate(String sql) {
Statement stat = null;
try {
stat = conn.createStatement();
int updateCount = stat.executeUpdate(sql);
return updateCount;
} catch (SQLException e) {
throw new IciqlException(e);
} finally {
JdbcUtils.closeSilently(stat);
}
}
}
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