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/*
* Copyright (c) 2004, PostgreSQL Global Development Group
* See the LICENSE file in the project root for more information.
*/
package org.postgresql.jdbc;
import static org.postgresql.util.internal.Nullness.castNonNull;
import org.postgresql.Driver;
import org.postgresql.core.BaseConnection;
import org.postgresql.core.CachedQuery;
import org.postgresql.core.Oid;
import org.postgresql.core.ParameterList;
import org.postgresql.core.Query;
import org.postgresql.core.QueryExecutor;
import org.postgresql.core.ServerVersion;
import org.postgresql.core.TypeInfo;
import org.postgresql.core.v3.BatchedQuery;
import org.postgresql.largeobject.LargeObject;
import org.postgresql.largeobject.LargeObjectManager;
import org.postgresql.util.ByteConverter;
import org.postgresql.util.ByteStreamWriter;
import org.postgresql.util.GT;
import org.postgresql.util.HStoreConverter;
import org.postgresql.util.PGBinaryObject;
import org.postgresql.util.PGTime;
import org.postgresql.util.PGTimestamp;
import org.postgresql.util.PGobject;
import org.postgresql.util.PSQLException;
import org.postgresql.util.PSQLState;
import org.postgresql.util.ReaderInputStream;
import org.checkerframework.checker.index.qual.NonNegative;
import org.checkerframework.checker.index.qual.Positive;
import org.checkerframework.checker.nullness.qual.NonNull;
import org.checkerframework.checker.nullness.qual.Nullable;
import org.checkerframework.common.value.qual.IntRange;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.Reader;
import java.io.UnsupportedEncodingException;
import java.io.Writer;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.math.RoundingMode;
import java.nio.charset.Charset;
import java.sql.Array;
import java.sql.Blob;
import java.sql.Clob;
import java.sql.NClob;
import java.sql.ParameterMetaData;
import java.sql.PreparedStatement;
import java.sql.Ref;
import java.sql.ResultSet;
import java.sql.ResultSetMetaData;
import java.sql.RowId;
import java.sql.SQLException;
import java.sql.SQLFeatureNotSupportedException;
import java.sql.SQLXML;
import java.sql.Time;
import java.sql.Timestamp;
import java.sql.Types;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.Map;
import java.util.TimeZone;
import java.util.UUID;
class PgPreparedStatement extends PgStatement implements PreparedStatement {
protected final CachedQuery preparedQuery; // Query fragments for prepared statement.
protected final ParameterList preparedParameters; // Parameter values for prepared statement.
private @Nullable TimeZone defaultTimeZone;
PgPreparedStatement(PgConnection connection, String sql, int rsType, int rsConcurrency,
int rsHoldability) throws SQLException {
this(connection, connection.borrowQuery(sql), rsType, rsConcurrency, rsHoldability);
}
@SuppressWarnings("method.invocation.invalid")
PgPreparedStatement(PgConnection connection, CachedQuery query, int rsType,
int rsConcurrency, int rsHoldability) throws SQLException {
super(connection, rsType, rsConcurrency, rsHoldability);
this.preparedQuery = query;
this.preparedParameters = this.preparedQuery.query.createParameterList();
// TODO: this.wantsGeneratedKeysAlways = true;
setPoolable(true); // As per JDBC spec: prepared and callable statements are poolable by
}
@Override
public ResultSet executeQuery(String sql) throws SQLException {
throw new PSQLException(
GT.tr("Can''t use query methods that take a query string on a PreparedStatement."),
PSQLState.WRONG_OBJECT_TYPE);
}
/*
* A Prepared SQL query is executed and its ResultSet is returned
*
* @return a ResultSet that contains the data produced by the * query - never null
*
* @exception SQLException if a database access error occurs
*/
@Override
public ResultSet executeQuery() throws SQLException {
if (!executeWithFlags(0)) {
throw new PSQLException(GT.tr("No results were returned by the query."), PSQLState.NO_DATA);
}
return getSingleResultSet();
}
@Override
public int executeUpdate(String sql) throws SQLException {
throw new PSQLException(
GT.tr("Can''t use query methods that take a query string on a PreparedStatement."),
PSQLState.WRONG_OBJECT_TYPE);
}
@Override
public int executeUpdate() throws SQLException {
executeWithFlags(QueryExecutor.QUERY_NO_RESULTS);
checkNoResultUpdate();
return getUpdateCount();
}
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
@Override
public long executeLargeUpdate() throws SQLException {
executeWithFlags(QueryExecutor.QUERY_NO_RESULTS);
checkNoResultUpdate();
return getLargeUpdateCount();
}
//#endif
@Override
public boolean execute(String sql) throws SQLException {
throw new PSQLException(
GT.tr("Can''t use query methods that take a query string on a PreparedStatement."),
PSQLState.WRONG_OBJECT_TYPE);
}
@Override
public boolean execute() throws SQLException {
return executeWithFlags(0);
}
public boolean executeWithFlags(int flags) throws SQLException {
try {
checkClosed();
if (connection.getPreferQueryMode() == PreferQueryMode.SIMPLE) {
flags |= QueryExecutor.QUERY_EXECUTE_AS_SIMPLE;
}
execute(preparedQuery, preparedParameters, flags);
synchronized (this) {
checkClosed();
return (result != null && result.getResultSet() != null);
}
} finally {
defaultTimeZone = null;
}
}
protected boolean isOneShotQuery(@Nullable CachedQuery cachedQuery) {
if (cachedQuery == null) {
cachedQuery = preparedQuery;
}
return super.isOneShotQuery(cachedQuery);
}
@Override
public void closeImpl() throws SQLException {
if (preparedQuery != null) {
((PgConnection) connection).releaseQuery(preparedQuery);
}
}
public void setNull(int parameterIndex, int sqlType) throws SQLException {
checkClosed();
if (parameterIndex < 1 || parameterIndex > preparedParameters.getParameterCount()) {
throw new PSQLException(
GT.tr("The column index is out of range: {0}, number of columns: {1}.",
parameterIndex, preparedParameters.getParameterCount()),
PSQLState.INVALID_PARAMETER_VALUE);
}
int oid;
switch (sqlType) {
case Types.SQLXML:
oid = Oid.XML;
break;
case Types.INTEGER:
oid = Oid.INT4;
break;
case Types.TINYINT:
case Types.SMALLINT:
oid = Oid.INT2;
break;
case Types.BIGINT:
oid = Oid.INT8;
break;
case Types.REAL:
oid = Oid.FLOAT4;
break;
case Types.DOUBLE:
case Types.FLOAT:
oid = Oid.FLOAT8;
break;
case Types.DECIMAL:
case Types.NUMERIC:
oid = Oid.NUMERIC;
break;
case Types.CHAR:
oid = Oid.BPCHAR;
break;
case Types.VARCHAR:
case Types.LONGVARCHAR:
oid = connection.getStringVarcharFlag() ? Oid.VARCHAR : Oid.UNSPECIFIED;
break;
case Types.DATE:
oid = Oid.DATE;
break;
case Types.TIME:
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
case Types.TIME_WITH_TIMEZONE:
case Types.TIMESTAMP_WITH_TIMEZONE:
//#endif
case Types.TIMESTAMP:
oid = Oid.UNSPECIFIED;
break;
case Types.BOOLEAN:
case Types.BIT:
oid = Oid.BOOL;
break;
case Types.BINARY:
case Types.VARBINARY:
case Types.LONGVARBINARY:
oid = Oid.BYTEA;
break;
case Types.BLOB:
case Types.CLOB:
oid = Oid.OID;
break;
case Types.ARRAY:
case Types.DISTINCT:
case Types.STRUCT:
case Types.NULL:
case Types.OTHER:
oid = Oid.UNSPECIFIED;
break;
default:
// Bad Types value.
throw new PSQLException(GT.tr("Unknown Types value."), PSQLState.INVALID_PARAMETER_TYPE);
}
preparedParameters.setNull(parameterIndex, oid);
}
public void setBoolean(@Positive int parameterIndex, boolean x) throws SQLException {
checkClosed();
// The key words TRUE and FALSE are the preferred (SQL-compliant) usage.
bindLiteral(parameterIndex, x ? "TRUE" : "FALSE", Oid.BOOL);
}
public void setByte(@Positive int parameterIndex, byte x) throws SQLException {
setShort(parameterIndex, x);
}
public void setShort(@Positive int parameterIndex, short x) throws SQLException {
checkClosed();
if (connection.binaryTransferSend(Oid.INT2)) {
byte[] val = new byte[2];
ByteConverter.int2(val, 0, x);
bindBytes(parameterIndex, val, Oid.INT2);
return;
}
bindLiteral(parameterIndex, Integer.toString(x), Oid.INT2);
}
public void setInt(@Positive int parameterIndex, int x) throws SQLException {
checkClosed();
if (connection.binaryTransferSend(Oid.INT4)) {
byte[] val = new byte[4];
ByteConverter.int4(val, 0, x);
bindBytes(parameterIndex, val, Oid.INT4);
return;
}
bindLiteral(parameterIndex, Integer.toString(x), Oid.INT4);
}
public void setLong(@Positive int parameterIndex, long x) throws SQLException {
checkClosed();
if (connection.binaryTransferSend(Oid.INT8)) {
byte[] val = new byte[8];
ByteConverter.int8(val, 0, x);
bindBytes(parameterIndex, val, Oid.INT8);
return;
}
bindLiteral(parameterIndex, Long.toString(x), Oid.INT8);
}
public void setFloat(@Positive int parameterIndex, float x) throws SQLException {
checkClosed();
if (connection.binaryTransferSend(Oid.FLOAT4)) {
byte[] val = new byte[4];
ByteConverter.float4(val, 0, x);
bindBytes(parameterIndex, val, Oid.FLOAT4);
return;
}
bindLiteral(parameterIndex, Float.toString(x), Oid.FLOAT8);
}
public void setDouble(@Positive int parameterIndex, double x) throws SQLException {
checkClosed();
if (connection.binaryTransferSend(Oid.FLOAT8)) {
byte[] val = new byte[8];
ByteConverter.float8(val, 0, x);
bindBytes(parameterIndex, val, Oid.FLOAT8);
return;
}
bindLiteral(parameterIndex, Double.toString(x), Oid.FLOAT8);
}
public void setBigDecimal(@Positive int parameterIndex, @Nullable BigDecimal x)
throws SQLException {
setNumber(parameterIndex, x);
}
public void setString(@Positive int parameterIndex, @Nullable String x) throws SQLException {
checkClosed();
setString(parameterIndex, x, getStringType());
}
private int getStringType() {
return (connection.getStringVarcharFlag() ? Oid.VARCHAR : Oid.UNSPECIFIED);
}
protected void setString(@Positive int parameterIndex,
@Nullable String x, int oid) throws SQLException {
// if the passed string is null, then set this column to null
checkClosed();
if (x == null) {
preparedParameters.setNull(parameterIndex, oid);
} else {
bindString(parameterIndex, x, oid);
}
}
public void setBytes(@Positive int parameterIndex, byte @Nullable[] x) throws SQLException {
checkClosed();
if (null == x) {
setNull(parameterIndex, Types.VARBINARY);
return;
}
// Version 7.2 supports the bytea datatype for byte arrays
byte[] copy = new byte[x.length];
System.arraycopy(x, 0, copy, 0, x.length);
preparedParameters.setBytea(parameterIndex, copy, 0, x.length);
}
private void setByteStreamWriter(@Positive int parameterIndex,
ByteStreamWriter x) throws SQLException {
preparedParameters.setBytea(parameterIndex, x);
}
public void setDate(@Positive int parameterIndex,
java.sql.@Nullable Date x) throws SQLException {
setDate(parameterIndex, x, null);
}
public void setTime(@Positive int parameterIndex, @Nullable Time x) throws SQLException {
setTime(parameterIndex, x, null);
}
public void setTimestamp(@Positive int parameterIndex, @Nullable Timestamp x) throws SQLException {
setTimestamp(parameterIndex, x, null);
}
private void setCharacterStreamPost71(@Positive int parameterIndex,
@Nullable InputStream x, int length,
String encoding) throws SQLException {
if (x == null) {
setNull(parameterIndex, Types.VARCHAR);
return;
}
if (length < 0) {
throw new PSQLException(GT.tr("Invalid stream length {0}.", length),
PSQLState.INVALID_PARAMETER_VALUE);
}
// Version 7.2 supports AsciiStream for all PG text types (char, varchar, text)
// As the spec/javadoc for this method indicate this is to be used for
// large String values (i.e. LONGVARCHAR) PG doesn't have a separate
// long varchar datatype, but with toast all text datatypes are capable of
// handling very large values. Thus the implementation ends up calling
// setString() since there is no current way to stream the value to the server
try {
InputStreamReader inStream = new InputStreamReader(x, encoding);
char[] chars = new char[length];
int charsRead = 0;
while (true) {
int n = inStream.read(chars, charsRead, length - charsRead);
if (n == -1) {
break;
}
charsRead += n;
if (charsRead == length) {
break;
}
}
setString(parameterIndex, new String(chars, 0, charsRead), Oid.VARCHAR);
} catch (UnsupportedEncodingException uee) {
throw new PSQLException(GT.tr("The JVM claims not to support the {0} encoding.", encoding),
PSQLState.UNEXPECTED_ERROR, uee);
} catch (IOException ioe) {
throw new PSQLException(GT.tr("Provided InputStream failed."), PSQLState.UNEXPECTED_ERROR,
ioe);
}
}
public void setAsciiStream(@Positive int parameterIndex, @Nullable InputStream x,
@NonNegative int length) throws SQLException {
checkClosed();
setCharacterStreamPost71(parameterIndex, x, length, "ASCII");
}
public void setUnicodeStream(@Positive int parameterIndex, @Nullable InputStream x,
@NonNegative int length) throws SQLException {
checkClosed();
setCharacterStreamPost71(parameterIndex, x, length, "UTF-8");
}
public void setBinaryStream(@Positive int parameterIndex, @Nullable InputStream x,
@NonNegative int length) throws SQLException {
checkClosed();
if (x == null) {
setNull(parameterIndex, Types.VARBINARY);
return;
}
if (length < 0) {
throw new PSQLException(GT.tr("Invalid stream length {0}.", length),
PSQLState.INVALID_PARAMETER_VALUE);
}
// Version 7.2 supports BinaryStream for for the PG bytea type
// As the spec/javadoc for this method indicate this is to be used for
// large binary values (i.e. LONGVARBINARY) PG doesn't have a separate
// long binary datatype, but with toast the bytea datatype is capable of
// handling very large values.
preparedParameters.setBytea(parameterIndex, x, length);
}
public void clearParameters() throws SQLException {
preparedParameters.clear();
}
// Helper method for setting parameters to PGobject subclasses.
private void setPGobject(@Positive int parameterIndex, PGobject x) throws SQLException {
String typename = x.getType();
int oid = connection.getTypeInfo().getPGType(typename);
if (oid == Oid.UNSPECIFIED) {
throw new PSQLException(GT.tr("Unknown type {0}.", typename),
PSQLState.INVALID_PARAMETER_TYPE);
}
if ((x instanceof PGBinaryObject) && connection.binaryTransferSend(oid)) {
PGBinaryObject binObj = (PGBinaryObject) x;
int length = binObj.lengthInBytes();
if (length == 0) {
preparedParameters.setNull(parameterIndex, oid);
return;
}
byte[] data = new byte[length];
binObj.toBytes(data, 0);
bindBytes(parameterIndex, data, oid);
} else {
setString(parameterIndex, x.getValue(), oid);
}
}
private void setMap(@Positive int parameterIndex, Map, ?> x) throws SQLException {
int oid = connection.getTypeInfo().getPGType("hstore");
if (oid == Oid.UNSPECIFIED) {
throw new PSQLException(GT.tr("No hstore extension installed."),
PSQLState.INVALID_PARAMETER_TYPE);
}
if (connection.binaryTransferSend(oid)) {
byte[] data = HStoreConverter.toBytes(x, connection.getEncoding());
bindBytes(parameterIndex, data, oid);
} else {
setString(parameterIndex, HStoreConverter.toString(x), oid);
}
}
private void setNumber(@Positive int parameterIndex, @Nullable Number x) throws SQLException {
checkClosed();
if (x == null) {
setNull(parameterIndex, Types.DECIMAL);
} else {
bindLiteral(parameterIndex, x.toString(), Oid.NUMERIC);
}
}
@Override
public void setObject(@Positive int parameterIndex, @Nullable Object in,
int targetSqlType, int scale)
throws SQLException {
checkClosed();
if (in == null) {
setNull(parameterIndex, targetSqlType);
return;
}
if (targetSqlType == Types.OTHER && in instanceof UUID
&& connection.haveMinimumServerVersion(ServerVersion.v8_3)) {
setUuid(parameterIndex, (UUID) in);
return;
}
switch (targetSqlType) {
case Types.SQLXML:
if (in instanceof SQLXML) {
setSQLXML(parameterIndex, (SQLXML) in);
} else {
setSQLXML(parameterIndex, new PgSQLXML(connection, in.toString()));
}
break;
case Types.INTEGER:
setInt(parameterIndex, castToInt(in));
break;
case Types.TINYINT:
case Types.SMALLINT:
setShort(parameterIndex, castToShort(in));
break;
case Types.BIGINT:
setLong(parameterIndex, castToLong(in));
break;
case Types.REAL:
setFloat(parameterIndex, castToFloat(in));
break;
case Types.DOUBLE:
case Types.FLOAT:
setDouble(parameterIndex, castToDouble(in));
break;
case Types.DECIMAL:
case Types.NUMERIC:
setBigDecimal(parameterIndex, castToBigDecimal(in, scale));
break;
case Types.CHAR:
setString(parameterIndex, castToString(in), Oid.BPCHAR);
break;
case Types.VARCHAR:
setString(parameterIndex, castToString(in), getStringType());
break;
case Types.LONGVARCHAR:
if (in instanceof InputStream) {
preparedParameters.setText(parameterIndex, (InputStream)in);
} else {
setString(parameterIndex, castToString(in), getStringType());
}
break;
case Types.DATE:
if (in instanceof java.sql.Date) {
setDate(parameterIndex, (java.sql.Date) in);
} else {
java.sql.Date tmpd;
if (in instanceof java.util.Date) {
tmpd = new java.sql.Date(((java.util.Date) in).getTime());
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
} else if (in instanceof java.time.LocalDate) {
setDate(parameterIndex, (java.time.LocalDate) in);
break;
//#endif
} else {
tmpd = connection.getTimestampUtils().toDate(getDefaultCalendar(), in.toString());
}
setDate(parameterIndex, tmpd);
}
break;
case Types.TIME:
if (in instanceof java.sql.Time) {
setTime(parameterIndex, (java.sql.Time) in);
} else {
java.sql.Time tmpt;
if (in instanceof java.util.Date) {
tmpt = new java.sql.Time(((java.util.Date) in).getTime());
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
} else if (in instanceof java.time.LocalTime) {
setTime(parameterIndex, (java.time.LocalTime) in);
break;
//#endif
} else {
tmpt = connection.getTimestampUtils().toTime(getDefaultCalendar(), in.toString());
}
setTime(parameterIndex, tmpt);
}
break;
case Types.TIMESTAMP:
if (in instanceof PGTimestamp) {
setObject(parameterIndex, in);
} else if (in instanceof java.sql.Timestamp) {
setTimestamp(parameterIndex, (java.sql.Timestamp) in);
} else {
java.sql.Timestamp tmpts;
if (in instanceof java.util.Date) {
tmpts = new java.sql.Timestamp(((java.util.Date) in).getTime());
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
} else if (in instanceof java.time.LocalDateTime) {
setTimestamp(parameterIndex, (java.time.LocalDateTime) in);
break;
//#endif
} else {
tmpts = connection.getTimestampUtils().toTimestamp(getDefaultCalendar(), in.toString());
}
setTimestamp(parameterIndex, tmpts);
}
break;
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
case Types.TIMESTAMP_WITH_TIMEZONE:
if (in instanceof java.time.OffsetDateTime) {
setTimestamp(parameterIndex, (java.time.OffsetDateTime) in);
} else if (in instanceof PGTimestamp) {
setObject(parameterIndex, in);
} else {
throw new PSQLException(
GT.tr("Cannot cast an instance of {0} to type {1}",
in.getClass().getName(), "Types.TIMESTAMP_WITH_TIMEZONE"),
PSQLState.INVALID_PARAMETER_TYPE);
}
break;
//#endif
case Types.BOOLEAN:
case Types.BIT:
setBoolean(parameterIndex, BooleanTypeUtil.castToBoolean(in));
break;
case Types.BINARY:
case Types.VARBINARY:
case Types.LONGVARBINARY:
setObject(parameterIndex, in);
break;
case Types.BLOB:
if (in instanceof Blob) {
setBlob(parameterIndex, (Blob) in);
} else if (in instanceof InputStream) {
long oid = createBlob(parameterIndex, (InputStream) in, -1);
setLong(parameterIndex, oid);
} else {
throw new PSQLException(
GT.tr("Cannot cast an instance of {0} to type {1}",
in.getClass().getName(), "Types.BLOB"),
PSQLState.INVALID_PARAMETER_TYPE);
}
break;
case Types.CLOB:
if (in instanceof Clob) {
setClob(parameterIndex, (Clob) in);
} else {
throw new PSQLException(
GT.tr("Cannot cast an instance of {0} to type {1}",
in.getClass().getName(), "Types.CLOB"),
PSQLState.INVALID_PARAMETER_TYPE);
}
break;
case Types.ARRAY:
if (in instanceof Array) {
setArray(parameterIndex, (Array) in);
} else {
try {
setObjectArray(parameterIndex, in);
} catch (Exception e) {
throw new PSQLException(
GT.tr("Cannot cast an instance of {0} to type {1}", in.getClass().getName(), "Types.ARRAY"),
PSQLState.INVALID_PARAMETER_TYPE, e);
}
}
break;
case Types.DISTINCT:
bindString(parameterIndex, in.toString(), Oid.UNSPECIFIED);
break;
case Types.OTHER:
if (in instanceof PGobject) {
setPGobject(parameterIndex, (PGobject) in);
} else if (in instanceof Map) {
setMap(parameterIndex, (Map, ?>) in);
} else {
bindString(parameterIndex, in.toString(), Oid.UNSPECIFIED);
}
break;
default:
throw new PSQLException(GT.tr("Unsupported Types value: {0}", targetSqlType),
PSQLState.INVALID_PARAMETER_TYPE);
}
}
private void setObjectArray(int parameterIndex, A in) throws SQLException {
final ArrayEncoding.ArrayEncoder arraySupport = ArrayEncoding.getArrayEncoder(in);
final TypeInfo typeInfo = connection.getTypeInfo();
final int oid = arraySupport.getDefaultArrayTypeOid();
if (arraySupport.supportBinaryRepresentation(oid) && connection.getPreferQueryMode() != PreferQueryMode.SIMPLE) {
bindBytes(parameterIndex, arraySupport.toBinaryRepresentation(connection, in, oid), oid);
} else {
if (oid == Oid.UNSPECIFIED) {
throw new SQLFeatureNotSupportedException();
}
final int baseOid = typeInfo.getPGArrayElement(oid);
final String baseType = castNonNull(typeInfo.getPGType(baseOid));
final Array array = getPGConnection().createArrayOf(baseType, in);
this.setArray(parameterIndex, array);
}
}
private static String asString(final Clob in) throws SQLException {
return in.getSubString(1, (int) in.length());
}
private static int castToInt(final Object in) throws SQLException {
try {
if (in instanceof String) {
return Integer.parseInt((String) in);
}
if (in instanceof Number) {
return ((Number) in).intValue();
}
if (in instanceof java.util.Date) {
return (int) ((java.util.Date) in).getTime();
}
if (in instanceof Boolean) {
return (Boolean) in ? 1 : 0;
}
if (in instanceof Clob) {
return Integer.parseInt(asString((Clob) in));
}
if (in instanceof Character) {
return Integer.parseInt(in.toString());
}
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "int", e);
}
throw cannotCastException(in.getClass().getName(), "int");
}
private static short castToShort(final Object in) throws SQLException {
try {
if (in instanceof String) {
return Short.parseShort((String) in);
}
if (in instanceof Number) {
return ((Number) in).shortValue();
}
if (in instanceof java.util.Date) {
return (short) ((java.util.Date) in).getTime();
}
if (in instanceof Boolean) {
return (Boolean) in ? (short) 1 : (short) 0;
}
if (in instanceof Clob) {
return Short.parseShort(asString((Clob) in));
}
if (in instanceof Character) {
return Short.parseShort(in.toString());
}
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "short", e);
}
throw cannotCastException(in.getClass().getName(), "short");
}
private static long castToLong(final Object in) throws SQLException {
try {
if (in instanceof String) {
return Long.parseLong((String) in);
}
if (in instanceof Number) {
return ((Number) in).longValue();
}
if (in instanceof java.util.Date) {
return ((java.util.Date) in).getTime();
}
if (in instanceof Boolean) {
return (Boolean) in ? 1L : 0L;
}
if (in instanceof Clob) {
return Long.parseLong(asString((Clob) in));
}
if (in instanceof Character) {
return Long.parseLong(in.toString());
}
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "long", e);
}
throw cannotCastException(in.getClass().getName(), "long");
}
private static float castToFloat(final Object in) throws SQLException {
try {
if (in instanceof String) {
return Float.parseFloat((String) in);
}
if (in instanceof Number) {
return ((Number) in).floatValue();
}
if (in instanceof java.util.Date) {
return ((java.util.Date) in).getTime();
}
if (in instanceof Boolean) {
return (Boolean) in ? 1f : 0f;
}
if (in instanceof Clob) {
return Float.parseFloat(asString((Clob) in));
}
if (in instanceof Character) {
return Float.parseFloat(in.toString());
}
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "float", e);
}
throw cannotCastException(in.getClass().getName(), "float");
}
private static double castToDouble(final Object in) throws SQLException {
try {
if (in instanceof String) {
return Double.parseDouble((String) in);
}
if (in instanceof Number) {
return ((Number) in).doubleValue();
}
if (in instanceof java.util.Date) {
return ((java.util.Date) in).getTime();
}
if (in instanceof Boolean) {
return (Boolean) in ? 1d : 0d;
}
if (in instanceof Clob) {
return Double.parseDouble(asString((Clob) in));
}
if (in instanceof Character) {
return Double.parseDouble(in.toString());
}
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "double", e);
}
throw cannotCastException(in.getClass().getName(), "double");
}
private static BigDecimal castToBigDecimal(final Object in, final int scale) throws SQLException {
try {
BigDecimal rc = null;
if (in instanceof String) {
rc = new BigDecimal((String) in);
} else if (in instanceof BigDecimal) {
rc = ((BigDecimal) in);
} else if (in instanceof BigInteger) {
rc = new BigDecimal((BigInteger) in);
} else if (in instanceof Long || in instanceof Integer || in instanceof Short
|| in instanceof Byte) {
rc = BigDecimal.valueOf(((Number) in).longValue());
} else if (in instanceof Double || in instanceof Float) {
rc = BigDecimal.valueOf(((Number) in).doubleValue());
} else if (in instanceof java.util.Date) {
rc = BigDecimal.valueOf(((java.util.Date) in).getTime());
} else if (in instanceof Boolean) {
rc = (Boolean) in ? BigDecimal.ONE : BigDecimal.ZERO;
} else if (in instanceof Clob) {
rc = new BigDecimal(asString((Clob) in));
} else if (in instanceof Character) {
rc = new BigDecimal(new char[]{(Character) in});
}
if (rc != null) {
if (scale >= 0) {
rc = rc.setScale(scale, RoundingMode.HALF_UP);
}
return rc;
}
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "BigDecimal", e);
}
throw cannotCastException(in.getClass().getName(), "BigDecimal");
}
private static String castToString(final Object in) throws SQLException {
try {
if (in instanceof String) {
return (String) in;
}
if (in instanceof Clob) {
return asString((Clob) in);
}
// convert any unknown objects to string.
return in.toString();
} catch (final Exception e) {
throw cannotCastException(in.getClass().getName(), "String", e);
}
}
private static PSQLException cannotCastException(final String fromType, final String toType) {
return cannotCastException(fromType, toType, null);
}
private static PSQLException cannotCastException(final String fromType, final String toType,
final @Nullable Exception cause) {
return new PSQLException(
GT.tr("Cannot convert an instance of {0} to type {1}", fromType, toType),
PSQLState.INVALID_PARAMETER_TYPE, cause);
}
public void setObject(@Positive int parameterIndex, @Nullable Object x,
int targetSqlType) throws SQLException {
setObject(parameterIndex, x, targetSqlType, -1);
}
/*
* This stores an Object into a parameter.
*/
public void setObject(@Positive int parameterIndex, @Nullable Object x) throws SQLException {
checkClosed();
if (x == null) {
setNull(parameterIndex, Types.OTHER);
} else if (x instanceof UUID && connection.haveMinimumServerVersion(ServerVersion.v8_3)) {
setUuid(parameterIndex, (UUID) x);
} else if (x instanceof SQLXML) {
setSQLXML(parameterIndex, (SQLXML) x);
} else if (x instanceof String) {
setString(parameterIndex, (String) x);
} else if (x instanceof BigDecimal) {
setBigDecimal(parameterIndex, (BigDecimal) x);
} else if (x instanceof Short) {
setShort(parameterIndex, (Short) x);
} else if (x instanceof Integer) {
setInt(parameterIndex, (Integer) x);
} else if (x instanceof Long) {
setLong(parameterIndex, (Long) x);
} else if (x instanceof Float) {
setFloat(parameterIndex, (Float) x);
} else if (x instanceof Double) {
setDouble(parameterIndex, (Double) x);
} else if (x instanceof byte[]) {
setBytes(parameterIndex, (byte[]) x);
} else if (x instanceof ByteStreamWriter) {
setByteStreamWriter(parameterIndex, (ByteStreamWriter) x);
} else if (x instanceof java.sql.Date) {
setDate(parameterIndex, (java.sql.Date) x);
} else if (x instanceof Time) {
setTime(parameterIndex, (Time) x);
} else if (x instanceof Timestamp) {
setTimestamp(parameterIndex, (Timestamp) x);
} else if (x instanceof Boolean) {
setBoolean(parameterIndex, (Boolean) x);
} else if (x instanceof Byte) {
setByte(parameterIndex, (Byte) x);
} else if (x instanceof Blob) {
setBlob(parameterIndex, (Blob) x);
} else if (x instanceof Clob) {
setClob(parameterIndex, (Clob) x);
} else if (x instanceof Array) {
setArray(parameterIndex, (Array) x);
} else if (x instanceof PGobject) {
setPGobject(parameterIndex, (PGobject) x);
} else if (x instanceof Character) {
setString(parameterIndex, ((Character) x).toString());
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
} else if (x instanceof java.time.LocalDate) {
setDate(parameterIndex, (java.time.LocalDate) x);
} else if (x instanceof java.time.LocalTime) {
setTime(parameterIndex, (java.time.LocalTime) x);
} else if (x instanceof java.time.LocalDateTime) {
setTimestamp(parameterIndex, (java.time.LocalDateTime) x);
} else if (x instanceof java.time.OffsetDateTime) {
setTimestamp(parameterIndex, (java.time.OffsetDateTime) x);
//#endif
} else if (x instanceof Map) {
setMap(parameterIndex, (Map, ?>) x);
} else if (x instanceof Number) {
setNumber(parameterIndex, (Number) x);
} else if (x.getClass().isArray()) {
try {
setObjectArray(parameterIndex, x);
} catch (Exception e) {
throw new PSQLException(
GT.tr("Cannot cast an instance of {0} to type {1}", x.getClass().getName(), "Types.ARRAY"),
PSQLState.INVALID_PARAMETER_TYPE, e);
}
} else {
// Can't infer a type.
throw new PSQLException(GT.tr(
"Can''t infer the SQL type to use for an instance of {0}. Use setObject() with an explicit Types value to specify the type to use.",
x.getClass().getName()), PSQLState.INVALID_PARAMETER_TYPE);
}
}
/**
* Returns the SQL statement with the current template values substituted.
*
* @return SQL statement with the current template values substituted
*/
public String toString() {
if (preparedQuery == null) {
return super.toString();
}
return preparedQuery.query.toString(preparedParameters);
}
/**
* Note if s is a String it should be escaped by the caller to avoid SQL injection attacks. It is
* not done here for efficiency reasons as most calls to this method do not require escaping as
* the source of the string is known safe (i.e. {@code Integer.toString()})
*
* @param paramIndex parameter index
* @param s value (the value should already be escaped)
* @param oid type oid
* @throws SQLException if something goes wrong
*/
protected void bindLiteral(@Positive int paramIndex,
String s, int oid) throws SQLException {
preparedParameters.setLiteralParameter(paramIndex, s, oid);
}
protected void bindBytes(@Positive int paramIndex,
byte[] b, int oid) throws SQLException {
preparedParameters.setBinaryParameter(paramIndex, b, oid);
}
/**
* This version is for values that should turn into strings e.g. setString directly calls
* bindString with no escaping; the per-protocol ParameterList does escaping as needed.
*
* @param paramIndex parameter index
* @param s value
* @param oid type oid
* @throws SQLException if something goes wrong
*/
private void bindString(@Positive int paramIndex, String s, int oid) throws SQLException {
preparedParameters.setStringParameter(paramIndex, s, oid);
}
@Override
public boolean isUseServerPrepare() {
return (preparedQuery != null && mPrepareThreshold != 0
&& preparedQuery.getExecuteCount() + 1 >= mPrepareThreshold);
}
@Override
public void addBatch(String sql) throws SQLException {
checkClosed();
throw new PSQLException(
GT.tr("Can''t use query methods that take a query string on a PreparedStatement."),
PSQLState.WRONG_OBJECT_TYPE);
}
@Override
public void addBatch() throws SQLException {
checkClosed();
ArrayList batchStatements = this.batchStatements;
if (batchStatements == null) {
this.batchStatements = batchStatements = new ArrayList();
}
ArrayList<@Nullable ParameterList> batchParameters = this.batchParameters;
if (batchParameters == null) {
this.batchParameters = batchParameters = new ArrayList<@Nullable ParameterList>();
}
// we need to create copies of our parameters, otherwise the values can be changed
batchParameters.add(preparedParameters.copy());
Query query = preparedQuery.query;
if (!(query instanceof BatchedQuery) || batchStatements.isEmpty()) {
batchStatements.add(query);
}
}
public @Nullable ResultSetMetaData getMetaData() throws SQLException {
checkClosed();
ResultSet rs = getResultSet();
if (rs == null || ((PgResultSet) rs).isResultSetClosed()) {
// OK, we haven't executed it yet, or it was closed
// we've got to go to the backend
// for more info. We send the full query, but just don't
// execute it.
int flags = QueryExecutor.QUERY_ONESHOT | QueryExecutor.QUERY_DESCRIBE_ONLY
| QueryExecutor.QUERY_SUPPRESS_BEGIN;
StatementResultHandler handler = new StatementResultHandler();
connection.getQueryExecutor().execute(preparedQuery.query, preparedParameters, handler, 0, 0,
flags);
ResultWrapper wrapper = handler.getResults();
if (wrapper != null) {
rs = wrapper.getResultSet();
}
}
if (rs != null) {
return rs.getMetaData();
}
return null;
}
public void setArray(int i, java.sql.@Nullable Array x) throws SQLException {
checkClosed();
if (null == x) {
setNull(i, Types.ARRAY);
return;
}
// This only works for Array implementations that return a valid array
// literal from Array.toString(), such as the implementation we return
// from ResultSet.getArray(). Eventually we need a proper implementation
// here that works for any Array implementation.
String typename = x.getBaseTypeName();
int oid = connection.getTypeInfo().getPGArrayType(typename);
if (oid == Oid.UNSPECIFIED) {
throw new PSQLException(GT.tr("Unknown type {0}.", typename),
PSQLState.INVALID_PARAMETER_TYPE);
}
if (x instanceof PgArray) {
PgArray arr = (PgArray) x;
byte[] bytes = arr.toBytes();
if (bytes != null) {
bindBytes(i, bytes, oid);
return;
}
}
setString(i, x.toString(), oid);
}
protected long createBlob(int i, InputStream inputStream,
@NonNegative long length) throws SQLException {
LargeObjectManager lom = connection.getLargeObjectAPI();
long oid = lom.createLO();
LargeObject lob = lom.open(oid);
OutputStream outputStream = lob.getOutputStream();
byte[] buf = new byte[4096];
try {
long remaining;
if (length > 0) {
remaining = length;
} else {
remaining = Long.MAX_VALUE;
}
int numRead = inputStream.read(buf, 0,
(length > 0 && remaining < buf.length ? (int) remaining : buf.length));
while (numRead != -1 && remaining > 0) {
remaining -= numRead;
outputStream.write(buf, 0, numRead);
numRead = inputStream.read(buf, 0,
(length > 0 && remaining < buf.length ? (int) remaining : buf.length));
}
} catch (IOException se) {
throw new PSQLException(GT.tr("Unexpected error writing large object to database."),
PSQLState.UNEXPECTED_ERROR, se);
} finally {
try {
outputStream.close();
} catch (Exception e) {
}
}
return oid;
}
public void setBlob(@Positive int i, @Nullable Blob x) throws SQLException {
checkClosed();
if (x == null) {
setNull(i, Types.BLOB);
return;
}
InputStream inStream = x.getBinaryStream();
try {
long oid = createBlob(i, inStream, x.length());
setLong(i, oid);
} finally {
try {
inStream.close();
} catch (Exception e) {
}
}
}
private String readerToString(Reader value, int maxLength) throws SQLException {
try {
int bufferSize = Math.min(maxLength, 1024);
StringBuilder v = new StringBuilder(bufferSize);
char[] buf = new char[bufferSize];
int nRead = 0;
while (nRead > -1 && v.length() < maxLength) {
nRead = value.read(buf, 0, Math.min(bufferSize, maxLength - v.length()));
if (nRead > 0) {
v.append(buf, 0, nRead);
}
}
return v.toString();
} catch (IOException ioe) {
throw new PSQLException(GT.tr("Provided Reader failed."), PSQLState.UNEXPECTED_ERROR, ioe);
}
}
public void setCharacterStream(@Positive int i, java.io.@Nullable Reader x,
@NonNegative int length) throws SQLException {
checkClosed();
if (x == null) {
setNull(i, Types.VARCHAR);
return;
}
if (length < 0) {
throw new PSQLException(GT.tr("Invalid stream length {0}.", length),
PSQLState.INVALID_PARAMETER_VALUE);
}
// Version 7.2 supports CharacterStream for for the PG text types
// As the spec/javadoc for this method indicate this is to be used for
// large text values (i.e. LONGVARCHAR) PG doesn't have a separate
// long varchar datatype, but with toast all the text datatypes are capable of
// handling very large values. Thus the implementation ends up calling
// setString() since there is no current way to stream the value to the server
setString(i, readerToString(x, length));
}
@Override
public void setClob(@Positive int i, @Nullable Clob x) throws SQLException {
checkClosed();
if (x == null) {
setNull(i, Types.CLOB);
return;
}
Reader inStream = x.getCharacterStream();
int length = (int) x.length();
LargeObjectManager lom = connection.getLargeObjectAPI();
long oid = lom.createLO();
LargeObject lob = lom.open(oid);
Charset connectionCharset = Charset.forName(connection.getEncoding().name());
OutputStream los = lob.getOutputStream();
Writer lw = new OutputStreamWriter(los, connectionCharset);
try {
// could be buffered, but then the OutputStream returned by LargeObject
// is buffered internally anyhow, so there would be no performance
// boost gained, if anything it would be worse!
int c = inStream.read();
int p = 0;
while (c > -1 && p < length) {
lw.write(c);
c = inStream.read();
p++;
}
lw.close();
} catch (IOException se) {
throw new PSQLException(GT.tr("Unexpected error writing large object to database."),
PSQLState.UNEXPECTED_ERROR, se);
}
// lob is closed by the stream so don't call lob.close()
setLong(i, oid);
}
public void setNull(@Positive int parameterIndex, int t,
@Nullable String typeName) throws SQLException {
if (typeName == null) {
setNull(parameterIndex, t);
return;
}
checkClosed();
TypeInfo typeInfo = connection.getTypeInfo();
int oid = typeInfo.getPGType(typeName);
preparedParameters.setNull(parameterIndex, oid);
}
public void setRef(@Positive int i, @Nullable Ref x) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setRef(int,Ref)");
}
public void setDate(@Positive int i, java.sql.@Nullable Date d,
java.util.@Nullable Calendar cal) throws SQLException {
checkClosed();
if (d == null) {
setNull(i, Types.DATE);
return;
}
if (connection.binaryTransferSend(Oid.DATE)) {
byte[] val = new byte[4];
TimeZone tz = cal != null ? cal.getTimeZone() : null;
connection.getTimestampUtils().toBinDate(tz, val, d);
preparedParameters.setBinaryParameter(i, val, Oid.DATE);
return;
}
// We must use UNSPECIFIED here, or inserting a Date-with-timezone into a
// timestamptz field does an unexpected rotation by the server's TimeZone:
//
// We want to interpret 2005/01/01 with calendar +0100 as
// "local midnight in +0100", but if we go via date it interprets it
// as local midnight in the server's timezone:
// template1=# select '2005-01-01+0100'::timestamptz;
// timestamptz
// ------------------------
// 2005-01-01 02:00:00+03
// (1 row)
// template1=# select '2005-01-01+0100'::date::timestamptz;
// timestamptz
// ------------------------
// 2005-01-01 00:00:00+03
// (1 row)
if (cal == null) {
cal = getDefaultCalendar();
}
bindString(i, connection.getTimestampUtils().toString(cal, d), Oid.UNSPECIFIED);
}
public void setTime(@Positive int i, @Nullable Time t,
java.util.@Nullable Calendar cal) throws SQLException {
checkClosed();
if (t == null) {
setNull(i, Types.TIME);
return;
}
int oid = Oid.UNSPECIFIED;
// If a PGTime is used, we can define the OID explicitly.
if (t instanceof PGTime) {
PGTime pgTime = (PGTime) t;
if (pgTime.getCalendar() == null) {
oid = Oid.TIME;
} else {
oid = Oid.TIMETZ;
cal = pgTime.getCalendar();
}
}
if (cal == null) {
cal = getDefaultCalendar();
}
bindString(i, connection.getTimestampUtils().toString(cal, t), oid);
}
public void setTimestamp(@Positive int i, @Nullable Timestamp t,
java.util.@Nullable Calendar cal) throws SQLException {
checkClosed();
if (t == null) {
setNull(i, Types.TIMESTAMP);
return;
}
int oid = Oid.UNSPECIFIED;
// Use UNSPECIFIED as a compromise to get both TIMESTAMP and TIMESTAMPTZ working.
// This is because you get this in a +1300 timezone:
//
// template1=# select '2005-01-01 15:00:00 +1000'::timestamptz;
// timestamptz
// ------------------------
// 2005-01-01 18:00:00+13
// (1 row)
// template1=# select '2005-01-01 15:00:00 +1000'::timestamp;
// timestamp
// ---------------------
// 2005-01-01 15:00:00
// (1 row)
// template1=# select '2005-01-01 15:00:00 +1000'::timestamptz::timestamp;
// timestamp
// ---------------------
// 2005-01-01 18:00:00
// (1 row)
// So we want to avoid doing a timestamptz -> timestamp conversion, as that
// will first convert the timestamptz to an equivalent time in the server's
// timezone (+1300, above), then turn it into a timestamp with the "wrong"
// time compared to the string we originally provided. But going straight
// to timestamp is OK as the input parser for timestamp just throws away
// the timezone part entirely. Since we don't know ahead of time what type
// we're actually dealing with, UNSPECIFIED seems the lesser evil, even if it
// does give more scope for type-mismatch errors being silently hidden.
// If a PGTimestamp is used, we can define the OID explicitly.
if (t instanceof PGTimestamp) {
PGTimestamp pgTimestamp = (PGTimestamp) t;
if (pgTimestamp.getCalendar() == null) {
oid = Oid.TIMESTAMP;
} else {
oid = Oid.TIMESTAMPTZ;
cal = pgTimestamp.getCalendar();
}
}
if (cal == null) {
cal = getDefaultCalendar();
}
bindString(i, connection.getTimestampUtils().toString(cal, t), oid);
}
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
private void setDate(@Positive int i, java.time.LocalDate localDate) throws SQLException {
int oid = Oid.DATE;
bindString(i, connection.getTimestampUtils().toString(localDate), oid);
}
private void setTime(@Positive int i, java.time.LocalTime localTime) throws SQLException {
int oid = Oid.TIME;
bindString(i, connection.getTimestampUtils().toString(localTime), oid);
}
private void setTimestamp(@Positive int i, java.time.LocalDateTime localDateTime)
throws SQLException {
int oid = Oid.TIMESTAMP;
bindString(i, connection.getTimestampUtils().toString(localDateTime), oid);
}
private void setTimestamp(@Positive int i, java.time.OffsetDateTime offsetDateTime)
throws SQLException {
int oid = Oid.TIMESTAMPTZ;
bindString(i, connection.getTimestampUtils().toString(offsetDateTime), oid);
}
//#endif
public ParameterMetaData createParameterMetaData(BaseConnection conn, int[] oids)
throws SQLException {
return new PgParameterMetaData(conn, oids);
}
//#if mvn.project.property.postgresql.jdbc.spec >= "JDBC4.2"
public void setObject(@Positive int parameterIndex, @Nullable Object x,
java.sql.SQLType targetSqlType,
int scaleOrLength) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setObject");
}
public void setObject(@Positive int parameterIndex, @Nullable Object x,
java.sql.SQLType targetSqlType)
throws SQLException {
throw Driver.notImplemented(this.getClass(), "setObject");
}
//#endif
public void setRowId(@Positive int parameterIndex, @Nullable RowId x) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setRowId(int, RowId)");
}
public void setNString(@Positive int parameterIndex, @Nullable String value) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setNString(int, String)");
}
public void setNCharacterStream(@Positive int parameterIndex, @Nullable Reader value, long length)
throws SQLException {
throw Driver.notImplemented(this.getClass(), "setNCharacterStream(int, Reader, long)");
}
public void setNCharacterStream(@Positive int parameterIndex,
@Nullable Reader value) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setNCharacterStream(int, Reader)");
}
public void setCharacterStream(@Positive int parameterIndex,
@Nullable Reader value, @NonNegative long length)
throws SQLException {
throw Driver.notImplemented(this.getClass(), "setCharacterStream(int, Reader, long)");
}
public void setCharacterStream(@Positive int parameterIndex,
@Nullable Reader value) throws SQLException {
if (connection.getPreferQueryMode() == PreferQueryMode.SIMPLE) {
String s = (value != null) ? readerToString(value, Integer.MAX_VALUE) : null;
setString(parameterIndex, s);
return;
}
InputStream is = (value != null) ? new ReaderInputStream(value) : null;
setObject(parameterIndex, is, Types.LONGVARCHAR);
}
public void setBinaryStream(@Positive int parameterIndex, @Nullable InputStream value,
@NonNegative @IntRange(from = 0, to = Integer.MAX_VALUE) long length)
throws SQLException {
//noinspection ConstantConditions
if (length > Integer.MAX_VALUE) {
throw new PSQLException(GT.tr("Object is too large to send over the protocol."),
PSQLState.NUMERIC_CONSTANT_OUT_OF_RANGE);
}
if (value == null) {
preparedParameters.setNull(parameterIndex, Oid.BYTEA);
} else {
preparedParameters.setBytea(parameterIndex, value, (int) length);
}
}
public void setBinaryStream(@Positive int parameterIndex,
@Nullable InputStream value) throws SQLException {
if (value == null) {
preparedParameters.setNull(parameterIndex, Oid.BYTEA);
} else {
preparedParameters.setBytea(parameterIndex, value);
}
}
public void setAsciiStream(@Positive int parameterIndex,
@Nullable InputStream value, @NonNegative long length)
throws SQLException {
throw Driver.notImplemented(this.getClass(), "setAsciiStream(int, InputStream, long)");
}
public void setAsciiStream(@Positive int parameterIndex,
@Nullable InputStream value) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setAsciiStream(int, InputStream)");
}
public void setNClob(@Positive int parameterIndex,
@Nullable NClob value) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setNClob(int, NClob)");
}
public void setClob(@Positive int parameterIndex,
@Nullable Reader reader, @NonNegative long length) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setClob(int, Reader, long)");
}
public void setClob(@Positive int parameterIndex,
@Nullable Reader reader) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setClob(int, Reader)");
}
public void setBlob(@Positive int parameterIndex,
@Nullable InputStream inputStream, @NonNegative long length)
throws SQLException {
checkClosed();
if (inputStream == null) {
setNull(parameterIndex, Types.BLOB);
return;
}
//noinspection ConstantConditions
if (length < 0) {
throw new PSQLException(GT.tr("Invalid stream length {0}.", length),
PSQLState.INVALID_PARAMETER_VALUE);
}
long oid = createBlob(parameterIndex, inputStream, length);
setLong(parameterIndex, oid);
}
public void setBlob(@Positive int parameterIndex,
@Nullable InputStream inputStream) throws SQLException {
checkClosed();
if (inputStream == null) {
setNull(parameterIndex, Types.BLOB);
return;
}
long oid = createBlob(parameterIndex, inputStream, -1);
setLong(parameterIndex, oid);
}
public void setNClob(@Positive int parameterIndex,
@Nullable Reader reader, @NonNegative long length) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setNClob(int, Reader, long)");
}
public void setNClob(@Positive int parameterIndex,
@Nullable Reader reader) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setNClob(int, Reader)");
}
public void setSQLXML(@Positive int parameterIndex,
@Nullable SQLXML xmlObject) throws SQLException {
checkClosed();
String stringValue = xmlObject == null ? null : xmlObject.getString();
if (stringValue == null) {
setNull(parameterIndex, Types.SQLXML);
} else {
setString(parameterIndex, stringValue, Oid.XML);
}
}
private void setUuid(@Positive int parameterIndex, UUID uuid) throws SQLException {
if (connection.binaryTransferSend(Oid.UUID)) {
byte[] val = new byte[16];
ByteConverter.int8(val, 0, uuid.getMostSignificantBits());
ByteConverter.int8(val, 8, uuid.getLeastSignificantBits());
bindBytes(parameterIndex, val, Oid.UUID);
} else {
bindLiteral(parameterIndex, uuid.toString(), Oid.UUID);
}
}
public void setURL(@Positive int parameterIndex, java.net.@Nullable URL x) throws SQLException {
throw Driver.notImplemented(this.getClass(), "setURL(int,URL)");
}
@Override
public int[] executeBatch() throws SQLException {
try {
// Note: in batch prepared statements batchStatements == 1, and batchParameters is equal
// to the number of addBatch calls
// batchParameters might be empty in case of empty batch
if (batchParameters != null && batchParameters.size() > 1 && mPrepareThreshold > 0) {
// Use server-prepared statements when there's more than one statement in a batch
// Technically speaking, it might cause to create a server-prepared statement
// just for 2 executions even for prepareThreshold=5. That however should be
// acceptable since prepareThreshold is a optimization kind of parameter.
this.preparedQuery.increaseExecuteCount(mPrepareThreshold);
}
return super.executeBatch();
} finally {
defaultTimeZone = null;
}
}
private Calendar getDefaultCalendar() {
TimestampUtils timestampUtils = connection.getTimestampUtils();
if (timestampUtils.hasFastDefaultTimeZone()) {
return timestampUtils.getSharedCalendar(null);
}
Calendar sharedCalendar = timestampUtils.getSharedCalendar(defaultTimeZone);
if (defaultTimeZone == null) {
defaultTimeZone = sharedCalendar.getTimeZone();
}
return sharedCalendar;
}
public ParameterMetaData getParameterMetaData() throws SQLException {
int flags = QueryExecutor.QUERY_ONESHOT | QueryExecutor.QUERY_DESCRIBE_ONLY
| QueryExecutor.QUERY_SUPPRESS_BEGIN;
StatementResultHandler handler = new StatementResultHandler();
connection.getQueryExecutor().execute(preparedQuery.query, preparedParameters, handler, 0, 0,
flags);
int[] oids = preparedParameters.getTypeOIDs();
return createParameterMetaData(connection, oids);
}
@Override
protected void transformQueriesAndParameters() throws SQLException {
ArrayList<@Nullable ParameterList> batchParameters = this.batchParameters;
if (batchParameters == null || batchParameters.size() <= 1
|| !(preparedQuery.query instanceof BatchedQuery)) {
return;
}
BatchedQuery originalQuery = (BatchedQuery) preparedQuery.query;
// Single query cannot have more than {@link Short#MAX_VALUE} binds, thus
// the number of multi-values blocks should be capped.
// Typically, it does not make much sense to batch more than 128 rows: performance
// does not improve much after updating 128 statements with 1 multi-valued one, thus
// we cap maximum batch size and split there.
final int bindCount = originalQuery.getBindCount();
final int highestBlockCount = 128;
final int maxValueBlocks = bindCount == 0 ? 1024 /* if no binds, use 1024 rows */
: Integer.highestOneBit( // deriveForMultiBatch supports powers of two only
Math.min(Math.max(1, (Short.MAX_VALUE - 1) / bindCount), highestBlockCount));
int unprocessedBatchCount = batchParameters.size();
final int fullValueBlocksCount = unprocessedBatchCount / maxValueBlocks;
final int partialValueBlocksCount = Integer.bitCount(unprocessedBatchCount % maxValueBlocks);
final int count = fullValueBlocksCount + partialValueBlocksCount;
ArrayList newBatchStatements = new ArrayList(count);
ArrayList<@Nullable ParameterList> newBatchParameters =
new ArrayList<@Nullable ParameterList>(count);
int offset = 0;
for (int i = 0; i < count; i++) {
int valueBlock;
if (unprocessedBatchCount >= maxValueBlocks) {
valueBlock = maxValueBlocks;
} else {
valueBlock = Integer.highestOneBit(unprocessedBatchCount);
}
// Find appropriate batch for block count.
BatchedQuery bq = originalQuery.deriveForMultiBatch(valueBlock);
ParameterList newPl = bq.createParameterList();
for (int j = 0; j < valueBlock; j++) {
ParameterList pl = batchParameters.get(offset++);
if (pl != null) {
newPl.appendAll(pl);
}
}
newBatchStatements.add(bq);
newBatchParameters.add(newPl);
unprocessedBatchCount -= valueBlock;
}
this.batchStatements = newBatchStatements;
this.batchParameters = newBatchParameters;
}
}