/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at * trunk/opends/resource/legal-notices/OpenDS.LICENSE * or https://OpenDS.dev.java.net/OpenDS.LICENSE. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at * trunk/opends/resource/legal-notices/OpenDS.LICENSE. If applicable, * add the following below this CDDL HEADER, with the fields enclosed * by brackets "[]" replaced with your own identifying information: * Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * * Copyright 2006-2009 Sun Microsystems, Inc. */ package org.opends.server.replication.protocol; import java.io.UnsupportedEncodingException; import java.util.zip.DataFormatException; import org.opends.server.protocols.asn1.ASN1Exception; import org.opends.server.protocols.internal.InternalClientConnection; import org.opends.server.replication.common.AssuredMode; import org.opends.server.replication.common.ChangeNumber; import org.opends.server.types.AbstractOperation; import org.opends.server.types.LDAPException; import org.opends.server.types.operation.PostOperationAddOperation; import org.opends.server.types.operation.PostOperationDeleteOperation; import org.opends.server.types.operation.PostOperationModifyDNOperation; import org.opends.server.types.operation.PostOperationModifyOperation; import org.opends.server.types.operation.PostOperationOperation; /** * Abstract class that must be extended to define a message * used for sending Updates between servers. */ public abstract class LDAPUpdateMsg extends UpdateMsg { /** * The DN on which the update was originally done. */ protected String dn = null; /** * The uniqueId of the entry that was updated. */ protected String uniqueId; /** * Encoded form of the LDAPUpdateMsg. */ protected byte[] bytes = null; /** * Creates a new UpdateMsg. */ public LDAPUpdateMsg() { } /** * Creates a new UpdateMsg with the given informations. * * @param ctx The replication Context of the operation for which the * update message must be created,. * @param dn The DN of the entry on which the change * that caused the creation of this object happened */ public LDAPUpdateMsg(OperationContext ctx, String dn) { this.protocolVersion = ProtocolVersion.getCurrentVersion(); this.changeNumber = ctx.getChangeNumber(); this.uniqueId = ctx.getEntryUid(); this.dn = dn; } /** * Creates a new UpdateMessage with the given informations. * * @param cn The ChangeNumber of the operation for which the * UpdateMessage is created. * @param entryUUID The Unique identifier of the entry that is updated * by the operation for which the UpdateMessage is created. * @param dn The DN of the entry on which the change * that caused the creation of this object happened */ public LDAPUpdateMsg(ChangeNumber cn, String entryUUID, String dn) { this.protocolVersion = ProtocolVersion.getCurrentVersion(); this.changeNumber = cn; this.uniqueId = entryUUID; this.dn = dn; } /** * Generates an Update Message with the provided information. * * @param op The operation for which the message must be created. * @return The generated message. */ public static LDAPUpdateMsg generateMsg(PostOperationOperation op) { LDAPUpdateMsg msg = null; switch (op.getOperationType()) { case MODIFY : msg = new ModifyMsg((PostOperationModifyOperation) op); break; case ADD: msg = new AddMsg((PostOperationAddOperation) op); break; case DELETE : msg = new DeleteMsg((PostOperationDeleteOperation) op); break; case MODIFY_DN : msg = new ModifyDNMsg( (PostOperationModifyDNOperation) op); break; } return msg; } /** * Get the DN on which the operation happened. * * @return The DN on which the operations happened. */ public String getDn() { return dn; } /** * Set the DN. * @param dn The dn that must now be used for this message. */ public void setDn(String dn) { this.dn = dn; } /** * Get the Unique Identifier of the entry on which the operation happened. * * @return The Unique Identifier of the entry on which the operation happened. */ public String getUniqueId() { return uniqueId; } /** * Do all the work necessary for the encoding. * * This is useful in case when one wants to perform this outside * of a synchronized portion of code. * * This method is not synchronized and therefore not MT safe. * * @throws UnsupportedEncodingException when encoding fails. */ public void encode() throws UnsupportedEncodingException { bytes = getBytes(); } /** * Create and Operation from the message. * * @param conn connection to use when creating the message * @return the created Operation * @throws LDAPException In case of LDAP decoding exception. * @throws ASN1Exception In case of ASN1 decoding exception. * @throws DataFormatException In case of bad msg format. */ public AbstractOperation createOperation(InternalClientConnection conn) throws LDAPException, ASN1Exception, DataFormatException { return createOperation(conn, dn); } /** * Create and Operation from the message using the provided DN. * * @param conn connection to use when creating the message. * @param newDn the DN to use when creating the operation. * @return the created Operation. * @throws LDAPException In case of LDAP decoding exception. * @throws ASN1Exception In case of ASN1 decoding exception. * @throws DataFormatException In case of bad msg format. */ public abstract AbstractOperation createOperation( InternalClientConnection conn, String newDn) throws LDAPException, ASN1Exception, DataFormatException; /** * Encode the common header for all the UpdateMsg. This uses the current * protocol version. * * @param type the type of UpdateMsg to encode. * @param additionalLength additional length needed to encode the remaining * part of the UpdateMsg. * @return a byte array containing the common header and enough space to * encode the remaining bytes of the UpdateMsg as was specified * by the additionalLength. * (byte array length = common header length + additionalLength) * @throws UnsupportedEncodingException if UTF-8 is not supported. */ public byte[] encodeHeader(byte type, int additionalLength) throws UnsupportedEncodingException { byte[] byteDn = dn.getBytes("UTF-8"); byte[] changeNumberByte = this.getChangeNumber().toString().getBytes("UTF-8"); byte[] byteEntryuuid = getUniqueId().getBytes("UTF-8"); /* The message header is stored in the form : * * * the length of result byte array is therefore : * 1 + 1 + change number length + 1 + dn length + 1 + uuid length + 1 + 1 * + 1 + 1 + additional_length */ int length = 8 + changeNumberByte.length + byteDn.length + byteEntryuuid.length + additionalLength; byte[] encodedMsg = new byte[length]; /* put the type of the operation */ encodedMsg[0] = type; /* put the protocol version */ encodedMsg[1] = (byte)ProtocolVersion.getCurrentVersion(); int pos = 2; /* Put the ChangeNumber */ pos = addByteArray(changeNumberByte, encodedMsg, pos); /* Put the DN and a terminating 0 */ pos = addByteArray(byteDn, encodedMsg, pos); /* Put the entry uuid and a terminating 0 */ pos = addByteArray(byteEntryuuid, encodedMsg, pos); /* Put the assured flag */ encodedMsg[pos++] = (assuredFlag ? (byte) 1 : 0); /* Put the assured mode */ encodedMsg[pos++] = assuredMode.getValue(); /* Put the safe data level */ encodedMsg[pos++] = safeDataLevel; return encodedMsg; } /** * {@inheritDoc} */ @Override public byte[] getBytes(short reqProtocolVersion) throws UnsupportedEncodingException { // Using current protocol version should normally not be done as we would // normally call the getBytes() method instead for that. So this check // for security if (reqProtocolVersion == ProtocolVersion.getCurrentVersion()) { return getBytes(); } switch (reqProtocolVersion) { case ProtocolVersion.REPLICATION_PROTOCOL_V1: return getBytes_V1(); default: // Unsupported requested version throw new UnsupportedEncodingException(getClass().getSimpleName() + " PDU does not support requested protocol version serialization: " + reqProtocolVersion); } } /** * Get the byte array representation of this Message. This uses the version * 1 of the replication protocol (used for compatibility purpose). * * @return The byte array representation of this Message. * * @throws UnsupportedEncodingException When the encoding of the message * failed because the UTF-8 encoding is not supported. */ public abstract byte[] getBytes_V1() throws UnsupportedEncodingException; /** * Encode the common header for all the UpdateMessage. This uses the version * 1 of the replication protocol (used for compatibility purpose). * * @param type the type of UpdateMessage to encode. * @param additionalLength additional length needed to encode the remaining * part of the UpdateMessage. * @return a byte array containing the common header and enough space to * encode the remaining bytes of the UpdateMessage as was specified * by the additionalLength. * (byte array length = common header length + additionalLength) * @throws UnsupportedEncodingException if UTF-8 is not supported. */ public byte[] encodeHeader_V1(byte type, int additionalLength) throws UnsupportedEncodingException { byte[] byteDn = dn.getBytes("UTF-8"); byte[] changeNumberByte = this.getChangeNumber().toString().getBytes("UTF-8"); byte[] byteEntryuuid = getUniqueId().getBytes("UTF-8"); /* The message header is stored in the form : * * the length of result byte array is therefore : * 1 + change number length + 1 + dn length + 1 + 1 + * uuid length + 1 + additional_length */ int length = 5 + changeNumberByte.length + byteDn.length + byteEntryuuid.length + additionalLength; byte[] encodedMsg = new byte[length]; /* put the type of the operation */ encodedMsg[0] = type; int pos = 1; /* put the ChangeNumber */ pos = addByteArray(changeNumberByte, encodedMsg, pos); /* put the assured information */ encodedMsg[pos++] = (assuredFlag ? (byte) 1 : 0); /* put the DN and a terminating 0 */ pos = addByteArray(byteDn, encodedMsg, pos); /* put the entry uuid and a terminating 0 */ pos = addByteArray(byteEntryuuid, encodedMsg, pos); return encodedMsg; } /** * Decode the Header part of this Update Message, and check its type. * * @param types The allowed types of this Update Message. * @param encodedMsg the encoded form of the UpdateMsg. * @return the position at which the remaining part of the message starts. * @throws DataFormatException if the encodedMsg does not contain a valid * common header. */ public int decodeHeader(byte[] types, byte[] encodedMsg) throws DataFormatException { /* The message header is stored in the form : * * */ /* first byte is the type */ boolean foundMatchingType = false; for (int i = 0; i < types.length; i++) { if (types[i] == encodedMsg[0]) { foundMatchingType = true; break; } } if (!foundMatchingType) throw new DataFormatException("byte[] is not a valid update msg: " + encodedMsg[0]); /* * For older protocol version PDUs, decode the matching version header * instead. */ if ((encodedMsg[0] == MSG_TYPE_ADD_V1) || (encodedMsg[0] == MSG_TYPE_DELETE_V1) || (encodedMsg[0] == MSG_TYPE_MODIFYDN_V1) || (encodedMsg[0] == MSG_TYPE_MODIFY_V1)) { return decodeHeader_V1(encodedMsg); } /* read the protocol version */ protocolVersion = (short)encodedMsg[1]; try { /* Read the changeNumber */ int pos = 2; int length = getNextLength(encodedMsg, pos); String changenumberStr = new String(encodedMsg, pos, length, "UTF-8"); pos += length + 1; changeNumber = new ChangeNumber(changenumberStr); /* Read the dn */ length = getNextLength(encodedMsg, pos); dn = new String(encodedMsg, pos, length, "UTF-8"); pos += length + 1; /* Read the entryuuid */ length = getNextLength(encodedMsg, pos); uniqueId = new String(encodedMsg, pos, length, "UTF-8"); pos += length + 1; /* Read the assured information */ if (encodedMsg[pos++] == 1) assuredFlag = true; else assuredFlag = false; /* Read the assured mode */ assuredMode = AssuredMode.valueOf(encodedMsg[pos++]); /* Read the safe data level */ safeDataLevel = encodedMsg[pos++]; return pos; } catch (UnsupportedEncodingException e) { throw new DataFormatException("UTF-8 is not supported by this jvm."); } catch (IllegalArgumentException e) { throw new DataFormatException(e.getMessage()); } } /** * Decode the Header part of this Update Message, and check its type. This * uses the version 1 of the replication protocol (used for compatibility * purpose). * * @param encodedMsg the encoded form of the UpdateMessage. * @return the position at which the remaining part of the message starts. * @throws DataFormatException if the encodedMsg does not contain a valid * common header. */ public int decodeHeader_V1(byte[] encodedMsg) throws DataFormatException { if ((encodedMsg[0] != MSG_TYPE_ADD_V1) && (encodedMsg[0] != MSG_TYPE_DELETE_V1) && (encodedMsg[0] != MSG_TYPE_MODIFYDN_V1) && (encodedMsg[0] != MSG_TYPE_MODIFY_V1)) throw new DataFormatException("byte[] is not a valid update msg: expected" + " a V1 PDU, received: " + encodedMsg[0]); // Force version to V1 (other new parameters take their default values // (assured stuff...)) protocolVersion = ProtocolVersion.REPLICATION_PROTOCOL_V1; try { /* read the changeNumber */ int pos = 1; int length = getNextLength(encodedMsg, pos); String changenumberStr = new String(encodedMsg, pos, length, "UTF-8"); pos += length + 1; changeNumber = new ChangeNumber(changenumberStr); /* read the assured information */ if (encodedMsg[pos++] == 1) assuredFlag = true; else assuredFlag = false; /* read the dn */ length = getNextLength(encodedMsg, pos); dn = new String(encodedMsg, pos, length, "UTF-8"); pos += length + 1; /* read the entryuuid */ length = getNextLength(encodedMsg, pos); uniqueId = new String(encodedMsg, pos, length, "UTF-8"); pos += length + 1; return pos; } catch (UnsupportedEncodingException e) { throw new DataFormatException("UTF-8 is not supported by this jvm."); } } /** * Return the number of bytes used by this message. * * @return The number of bytes used by this message. */ public abstract int size(); }