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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF 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.apache.camel.component.smpp;

import java.net.URI;
import java.nio.charset.Charset;
import java.util.Map;

import org.apache.camel.RuntimeCamelException;
import org.apache.camel.spi.UriParam;
import org.apache.camel.spi.UriParams;
import org.apache.camel.spi.UriPath;
import org.jsmpp.bean.Alphabet;
import org.jsmpp.bean.NumberingPlanIndicator;
import org.jsmpp.bean.ReplaceIfPresentFlag;
import org.jsmpp.bean.SMSCDeliveryReceipt;
import org.jsmpp.bean.TypeOfNumber;
import org.jsmpp.session.SessionStateListener;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

/**
 * Contains the SMPP component configuration properties
 */
@UriParams
public class SmppConfiguration implements Cloneable {
    private static final Logger LOG = LoggerFactory.getLogger(SmppConfiguration.class);

    @UriPath(defaultValue = "localhost")
    private String host = "localhost";
    @UriPath(defaultValue = "2775")
    private Integer port = 2775;
    @UriParam(label = "security", defaultValue = "smppclient", secret = true)
    private String systemId = "smppclient";
    @UriParam(label = "security", secret = true)
    private String password;
    @UriParam(label = "common", defaultValue = "")
    private String systemType = "";
    @UriParam(label = "codec")
    private byte dataCoding = (byte) 0;
    @UriParam(label = "codec", enums = "0,4,8")
    private byte alphabet = Alphabet.ALPHA_DEFAULT.value();
    @UriParam(label = "codec", defaultValue = "ISO-8859-1")
    private String encoding = "ISO-8859-1";
    @UriParam(label = "advanced", defaultValue = "60000")
    private Integer enquireLinkTimer = 60000;
    @UriParam(label = "advanced", defaultValue = "10000")
    private Integer transactionTimer = 10000;
    @UriParam(label = "producer", enums = "0,1,2")
    private byte registeredDelivery = SMSCDeliveryReceipt.SUCCESS_FAILURE.value();
    @UriParam(label = "producer", defaultValue = "", enums = "CMT,CPT,VMN,VMA,WAP,USSD")
    private String serviceType = "";
    @UriParam(label = "producer", defaultValue = "1616")
    private String sourceAddr = "1616";
    @UriParam(label = "producer", defaultValue = "1717")
    private String destAddr = "1717";
    @UriParam(label = "producer", enums = "0,1,2,3,4,5,6")
    private byte sourceAddrTon = TypeOfNumber.UNKNOWN.value();
    @UriParam(label = "producer", enums = "0,1,2,3,4,5,6")
    private byte destAddrTon = TypeOfNumber.UNKNOWN.value();
    @UriParam(label = "producer", enums = "0,1,2,3,6,8,9,10,13,18")
    private byte sourceAddrNpi = NumberingPlanIndicator.UNKNOWN.value();
    @UriParam(label = "producer", enums = "0,1,2,3,6,8,9,10,13,18")
    private byte destAddrNpi = NumberingPlanIndicator.UNKNOWN.value();
    @UriParam(label = "consumer")
    private String addressRange = "";
    @UriParam(label = "producer")
    private byte protocolId = (byte) 0;
    @UriParam(label = "producer", enums = "0,1,2,3")
    private byte priorityFlag = (byte) 1;
    @UriParam(label = "producer", enums = "0,1")
    private byte replaceIfPresentFlag = ReplaceIfPresentFlag.DEFAULT.value();
    @UriParam(label = "producer", enums = "0,1,2,3,4,5,6")
    private byte typeOfNumber = TypeOfNumber.UNKNOWN.value();
    @UriParam(label = "producer", enums = "0,1,2,3,6,8,9,10,13,18")
    private byte numberingPlanIndicator = NumberingPlanIndicator.UNKNOWN.value();
    @UriParam(label = "security")
    private boolean usingSSL;
    @UriParam(label = "common", defaultValue = "5000")
    private long initialReconnectDelay = 5000;
    @UriParam(label = "common", defaultValue = "5000")
    private long reconnectDelay = 5000;
    @UriParam(label = "common", defaultValue = "2147483647")
    private int maxReconnect = Integer.MAX_VALUE;
    @UriParam(label = "producer")
    private boolean lazySessionCreation;
    @UriParam(label = "producer")
    private String messageReceiverRouteId;
    @UriParam(label = "proxy")
    private String httpProxyHost;
    @UriParam(label = "proxy", defaultValue = "3128")
    private Integer httpProxyPort = 3128;
    @UriParam(label = "proxy")
    private String httpProxyUsername;
    @UriParam(label = "proxy")
    private String httpProxyPassword;
    @UriParam(label = "proxy")
    private Map proxyHeaders;
    @UriParam(label = "advanced")
    private SessionStateListener sessionStateListener;
    @UriParam(defaultValue = "ALLOW")
    private SmppSplittingPolicy splittingPolicy = SmppSplittingPolicy.ALLOW;
    @UriParam(label = "advanced", defaultValue = "3")
    private Integer pduProcessorDegree = 3;
    @UriParam(label = "advanced", defaultValue = "100")
    private Integer pduProcessorQueueCapacity = 100;
    @UriParam(label = "advanced", defaultValue = "false")
    private boolean singleDLR;

    /**
     * A POJO which contains all necessary configuration parameters for the SMPP connection
     *
     * @param uri the full URI of the endpoint
     */
    public void configureFromURI(URI uri) {
        String userInfo = uri.getUserInfo();
        if (userInfo != null) {
            setSystemId(uri.getUserInfo());
        }

        String host = uri.getHost();
        if (host != null) {
            setHost(host);
        }

        int port = uri.getPort();
        if (port > 0) {
            setPort(port);
        }

        if (uri.getScheme().startsWith("smpps")) {
            setUsingSSL(true);
        }
    }

    public SmppConfiguration copy() {
        try {
            return (SmppConfiguration) clone();
        } catch (CloneNotSupportedException e) {
            throw new RuntimeCamelException(e);
        }
    }

    public String getHost() {
        return host;
    }

    /**
     * Hostname for the SMSC server to use.
     */
    public void setHost(String host) {
        this.host = host;
    }

    public Integer getPort() {
        return port;
    }

    /**
     * Port number for the SMSC server to use.
     */
    public void setPort(Integer port) {
        this.port = port;
    }

    public String getSystemId() {
        return systemId;
    }

    /**
     * The system id (username) for connecting to SMSC server.
     */
    public void setSystemId(String systemId) {
        this.systemId = systemId;
    }

    /**
     * The password for connecting to SMSC server.
     */
    public String getPassword() {
        return password;
    }

    public byte getDataCoding() {
        return dataCoding;
    }

    /**
     * Defines the data coding according the SMPP 3.4 specification, section 5.2.19. Example data encodings are:
     * 
    *
  • 0: SMSC Default Alphabet
  • *
  • 3: Latin 1 (ISO-8859-1)
  • *
  • 4: Octet unspecified (8-bit binary)
  • *
  • 8: UCS2 (ISO/IEC-10646)
  • *
  • 13: Extended Kanji JIS(X 0212-1990)
  • *
*/ public void setDataCoding(byte dataCoding) { this.dataCoding = dataCoding; } public byte getAlphabet() { return alphabet; } /** * Defines encoding of data according the SMPP 3.4 specification, section 5.2.19. *
    *
  • 0: SMSC Default Alphabet *
  • 4: 8 bit Alphabet
  • *
  • 8: UCS2 Alphabet
  • *
*/ public void setAlphabet(byte alphabet) { this.alphabet = alphabet; } public String getEncoding() { return encoding; } /** * Defines the encoding scheme of the short message user data. Only for SubmitSm, ReplaceSm and SubmitMulti. */ public void setEncoding(String encoding) { if (!Charset.isSupported(encoding)) { LOG.warn("Unsupported encoding \"{}\" is being set.", encoding); } this.encoding = encoding; } public void setPassword(String password) { this.password = password; } public Integer getEnquireLinkTimer() { return enquireLinkTimer; } /** * Defines the interval in milliseconds between the confidence checks. The confidence check is used to test the * communication path between an ESME and an SMSC. */ public void setEnquireLinkTimer(Integer enquireLinkTimer) { this.enquireLinkTimer = enquireLinkTimer; } public Integer getTransactionTimer() { return transactionTimer; } /** * Defines the maximum period of inactivity allowed after a transaction, after which an SMPP entity may assume that * the session is no longer active. This timer may be active on either communicating SMPP entity (i.e. SMSC or * ESME). */ public void setTransactionTimer(Integer transactionTimer) { this.transactionTimer = transactionTimer; } public String getSystemType() { return systemType; } /** * This parameter is used to categorize the type of ESME (External Short Message Entity) that is binding to the SMSC * (max. 13 characters). */ public void setSystemType(String systemType) { this.systemType = systemType; } public byte getRegisteredDelivery() { return registeredDelivery; } /** * Is used to request an SMSC delivery receipt and/or SME originated acknowledgements. The following values are * defined: *
    *
  • 0: No SMSC delivery receipt requested.
  • *
  • 1: SMSC delivery receipt requested where final delivery outcome is success or failure.
  • *
  • 2: SMSC delivery receipt requested where the final delivery outcome is delivery failure.
  • *
*/ public void setRegisteredDelivery(byte registeredDelivery) { this.registeredDelivery = registeredDelivery; } public String getServiceType() { return serviceType; } /** * The service type parameter can be used to indicate the SMS Application service associated with the message. The * following generic service_types are defined: *
    *
  • CMT: Cellular Messaging
  • *
  • CPT: Cellular Paging
  • *
  • VMN: Voice Mail Notification
  • *
  • VMA: Voice Mail Alerting
  • *
  • WAP: Wireless Application Protocol
  • *
  • USSD: Unstructured Supplementary Services Data
  • *
*/ public void setServiceType(String serviceType) { this.serviceType = serviceType; } public byte getSourceAddrTon() { return sourceAddrTon; } /** * Defines the type of number (TON) to be used in the SME originator address parameters. The following TON values * are defined: *
    *
  • 0: Unknown
  • *
  • 1: International
  • *
  • 2: National
  • *
  • 3: Network Specific
  • *
  • 4: Subscriber Number
  • *
  • 5: Alphanumeric
  • *
  • 6: Abbreviated
  • *
*/ public void setSourceAddrTon(byte sourceAddrTon) { this.sourceAddrTon = sourceAddrTon; } public byte getDestAddrTon() { return destAddrTon; } /** * Defines the type of number (TON) to be used in the SME destination address parameters. Only for SubmitSm, * SubmitMulti, CancelSm and DataSm. The following TON values are defined: *
    *
  • 0: Unknown
  • *
  • 1: International
  • *
  • 2: National
  • *
  • 3: Network Specific
  • *
  • 4: Subscriber Number
  • *
  • 5: Alphanumeric
  • *
  • 6: Abbreviated
  • *
*/ public void setDestAddrTon(byte destAddrTon) { this.destAddrTon = destAddrTon; } public byte getSourceAddrNpi() { return sourceAddrNpi; } /** * Defines the numeric plan indicator (NPI) to be used in the SME originator address parameters. The following NPI * values are defined: *
    *
  • 0: Unknown
  • *
  • 1: ISDN (E163/E164)
  • *
  • 2: Data (X.121)
  • *
  • 3: Telex (F.69)
  • *
  • 6: Land Mobile (E.212)
  • *
  • 8: National
  • *
  • 9: Private
  • *
  • 10: ERMES
  • *
  • 13: Internet (IP)
  • *
  • 18: WAP Client Id (to be defined by WAP Forum)
  • *
*/ public void setSourceAddrNpi(byte sourceAddrNpi) { this.sourceAddrNpi = sourceAddrNpi; } public byte getDestAddrNpi() { return destAddrNpi; } /** * Defines the type of number (TON) to be used in the SME destination address parameters. Only for SubmitSm, * SubmitMulti, CancelSm and DataSm. The following NPI values are defined: *
    *
  • 0: Unknown
  • *
  • 1: ISDN (E163/E164)
  • *
  • 2: Data (X.121)
  • *
  • 3: Telex (F.69)
  • *
  • 6: Land Mobile (E.212)
  • *
  • 8: National
  • *
  • 9: Private
  • *
  • 10: ERMES
  • *
  • 13: Internet (IP)
  • *
  • 18: WAP Client Id (to be defined by WAP Forum)
  • *
*/ public void setDestAddrNpi(byte destAddrNpi) { this.destAddrNpi = destAddrNpi; } public byte getProtocolId() { return protocolId; } /** * The protocol id */ public void setProtocolId(byte protocolId) { this.protocolId = protocolId; } public byte getPriorityFlag() { return priorityFlag; } /** * Allows the originating SME to assign a priority level to the short message. Only for SubmitSm and SubmitMulti. * Four Priority Levels are supported: *
    *
  • 0: Level 0 (lowest) priority
  • *
  • 1: Level 1 priority
  • *
  • 2: Level 2 priority
  • *
  • 3: Level 3 (highest) priority
  • *
*/ public void setPriorityFlag(byte priorityFlag) { this.priorityFlag = priorityFlag; } public byte getReplaceIfPresentFlag() { return replaceIfPresentFlag; } /** * Used to request the SMSC to replace a previously submitted message, that is still pending delivery. The SMSC will * replace an existing message provided that the source address, destination address and service type match the same * fields in the new message. The following replace if present flag values are defined: *
    *
  • 0: Don't replace
  • *
  • 1: Replace
  • *
*/ public void setReplaceIfPresentFlag(byte replaceIfPresentFlag) { this.replaceIfPresentFlag = replaceIfPresentFlag; } public String getSourceAddr() { return sourceAddr; } /** * Defines the address of SME (Short Message Entity) which originated this message. */ public void setSourceAddr(String sourceAddr) { this.sourceAddr = sourceAddr; } public String getDestAddr() { return destAddr; } /** * Defines the destination SME address. For mobile terminated messages, this is the directory number of the * recipient MS. Only for SubmitSm, SubmitMulti, CancelSm and DataSm. */ public void setDestAddr(String destAddr) { this.destAddr = destAddr; } public byte getTypeOfNumber() { return typeOfNumber; } /** * Defines the type of number (TON) to be used in the SME. The following TON values are defined: *
    *
  • 0: Unknown
  • *
  • 1: International
  • *
  • 2: National
  • *
  • 3: Network Specific
  • *
  • 4: Subscriber Number
  • *
  • 5: Alphanumeric
  • *
  • 6: Abbreviated
  • *
*/ public void setTypeOfNumber(byte typeOfNumber) { this.typeOfNumber = typeOfNumber; } public byte getNumberingPlanIndicator() { return numberingPlanIndicator; } /** * Defines the numeric plan indicator (NPI) to be used in the SME. The following NPI values are defined: *
    *
  • 0: Unknown
  • *
  • 1: ISDN (E163/E164)
  • *
  • 2: Data (X.121)
  • *
  • 3: Telex (F.69)
  • *
  • 6: Land Mobile (E.212)
  • *
  • 8: National
  • *
  • 9: Private
  • *
  • 10: ERMES
  • *
  • 13: Internet (IP)
  • *
  • 18: WAP Client Id (to be defined by WAP Forum)
  • *
*/ public void setNumberingPlanIndicator(byte numberingPlanIndicator) { this.numberingPlanIndicator = numberingPlanIndicator; } public boolean isUsingSSL() { return usingSSL; } /** * Whether using SSL with the smpps protocol */ public void setUsingSSL(boolean usingSSL) { this.usingSSL = usingSSL; } public long getInitialReconnectDelay() { return initialReconnectDelay; } /** * Defines the initial delay in milliseconds after the consumer/producer tries to reconnect to the SMSC, after the * connection was lost. */ public void setInitialReconnectDelay(long initialReconnectDelay) { this.initialReconnectDelay = initialReconnectDelay; } public long getReconnectDelay() { return reconnectDelay; } /** * Defines the interval in milliseconds between the reconnect attempts, if the connection to the SMSC was lost and * the previous was not succeed. */ public void setReconnectDelay(long reconnectDelay) { this.reconnectDelay = reconnectDelay; } /** * Defines the maximum number of attempts to reconnect to the SMSC, if SMSC returns a negative bind response */ public int getMaxReconnect() { return maxReconnect; } public void setMaxReconnect(int maxReconnect) { this.maxReconnect = maxReconnect; } public boolean isLazySessionCreation() { return lazySessionCreation; } /** * Sessions can be lazily created to avoid exceptions, if the SMSC is not available when the Camel producer is * started. Camel will check the in message headers 'CamelSmppSystemId' and 'CamelSmppPassword' of the first * exchange. If they are present, Camel will use these data to connect to the SMSC. */ public void setLazySessionCreation(boolean lazySessionCreation) { this.lazySessionCreation = lazySessionCreation; } public String getMessageReceiverRouteId() { return messageReceiverRouteId; } /** * Set this on producer in order to benefit from transceiver (TRX) binding type. So once set, you don't need to * define an 'SMTPP consumer' endpoint anymore. You would set this to a 'Direct consumer' endpoint instead. * * DISCALIMER: This feature is only tested with 'Direct consumer' endpoint. The behavior with any other consumer * type is unknown and not tested. */ public void setMessageReceiverRouteId(String messageReceiverRouteId) { this.messageReceiverRouteId = messageReceiverRouteId; } public String getHttpProxyHost() { return httpProxyHost; } /** * If you need to tunnel SMPP through a HTTP proxy, set this attribute to the hostname or ip address of your HTTP * proxy. */ public void setHttpProxyHost(String httpProxyHost) { this.httpProxyHost = httpProxyHost; } public Integer getHttpProxyPort() { return httpProxyPort; } /** * If you need to tunnel SMPP through a HTTP proxy, set this attribute to the port of your HTTP proxy. */ public void setHttpProxyPort(Integer httpProxyPort) { this.httpProxyPort = httpProxyPort; } public String getHttpProxyUsername() { return httpProxyUsername; } /** * If your HTTP proxy requires basic authentication, set this attribute to the username required for your HTTP * proxy. */ public void setHttpProxyUsername(String httpProxyUsername) { this.httpProxyUsername = httpProxyUsername; } public String getHttpProxyPassword() { return httpProxyPassword; } /** * If your HTTP proxy requires basic authentication, set this attribute to the password required for your HTTP * proxy. */ public void setHttpProxyPassword(String httpProxyPassword) { this.httpProxyPassword = httpProxyPassword; } public SessionStateListener getSessionStateListener() { return sessionStateListener; } /** * You can refer to a org.jsmpp.session.SessionStateListener in the Registry to receive callbacks when the session * state changed. */ public void setSessionStateListener(SessionStateListener sessionStateListener) { this.sessionStateListener = sessionStateListener; } public String getAddressRange() { return addressRange; } /** * You can specify the address range for the SmppConsumer as defined in section 5.2.7 of the SMPP 3.4 specification. * The SmppConsumer will receive messages only from SMSC's which target an address (MSISDN or IP address) within * this range. */ public void setAddressRange(String addressRange) { this.addressRange = addressRange; } public SmppSplittingPolicy getSplittingPolicy() { return splittingPolicy; } /** * You can specify a policy for handling long messages: *
    *
  • ALLOW - the default, long messages are split to 140 bytes per message
  • *
  • TRUNCATE - long messages are split and only the first fragment will be sent to the SMSC. Some carriers drop * subsequent fragments so this reduces load on the SMPP connection sending parts of a message that will never be * delivered.
  • *
  • REJECT - if a message would need to be split, it is rejected with an SMPP NegativeResponseException and the * reason code signifying the message is too long.
  • *
*/ public void setSplittingPolicy(SmppSplittingPolicy splittingPolicy) { this.splittingPolicy = splittingPolicy; } /** * These headers will be passed to the proxy server while establishing the connection. */ public void setProxyHeaders(Map proxyHeaders) { this.proxyHeaders = proxyHeaders; } public Map getProxyHeaders() { return proxyHeaders; } public Integer getPduProcessorDegree() { return pduProcessorDegree; } /** * Sets the number of threads which can read PDU and process them in parallel. */ public void setPduProcessorDegree(Integer pduProcessorDegree) { this.pduProcessorDegree = pduProcessorDegree; } public Integer getPduProcessorQueueCapacity() { return pduProcessorQueueCapacity; } /** * Sets the capacity of the working queue for PDU processing. */ public void setPduProcessorQueueCapacity(Integer pduProcessorQueueCapacity) { this.pduProcessorQueueCapacity = pduProcessorQueueCapacity; } public boolean isSingleDLR() { return singleDLR; } /** * When true, the SMSC delivery receipt would be requested only for the last segment of a multi-segment (long) * message. For short messages, with only 1 segment the behaviour is unchanged. */ public void setSingleDLR(boolean singleDLR) { this.singleDLR = singleDLR; } @Override public String toString() { return "SmppConfiguration[usingSSL=" + usingSSL + ", enquireLinkTimer=" + enquireLinkTimer + ", host=" + host + ", password=" + password + ", port=" + port + ", systemId=" + systemId + ", systemType=" + systemType + ", dataCoding=" + dataCoding + ", alphabet=" + alphabet + ", encoding=" + encoding + ", transactionTimer=" + transactionTimer + ", pduProcessorQueueCapacity=" + pduProcessorQueueCapacity + ", pduProcessorDegree=" + pduProcessorDegree + ", registeredDelivery=" + registeredDelivery + ", singleDLR=" + singleDLR + ", serviceType=" + serviceType + ", sourceAddrTon=" + sourceAddrTon + ", destAddrTon=" + destAddrTon + ", sourceAddrNpi=" + sourceAddrNpi + ", destAddrNpi=" + destAddrNpi + ", addressRange=" + addressRange + ", protocolId=" + protocolId + ", priorityFlag=" + priorityFlag + ", replaceIfPresentFlag=" + replaceIfPresentFlag + ", sourceAddr=" + sourceAddr + ", destAddr=" + destAddr + ", typeOfNumber=" + typeOfNumber + ", numberingPlanIndicator=" + numberingPlanIndicator + ", initialReconnectDelay=" + initialReconnectDelay + ", reconnectDelay=" + reconnectDelay + ", maxReconnect=" + maxReconnect + ", lazySessionCreation=" + lazySessionCreation + ", messageReceiverRouteId=" + messageReceiverRouteId + ", httpProxyHost=" + httpProxyHost + ", httpProxyPort=" + httpProxyPort + ", httpProxyUsername=" + httpProxyUsername + ", httpProxyPassword=" + httpProxyPassword + ", splittingPolicy=" + splittingPolicy + ", proxyHeaders=" + proxyHeaders + "]"; } }




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