ReadMessages クラスに加えたいくつかの変更を次に示しますが、新しいメッセージの通知にはまだ 30 ~ 45 秒ほどかかります。
Service.getInstance().S.CNMI_EMULATOR_INTERVAL = 2; Service.getInstance().S.WATCHDOG_INTERVAL = 3;
アプリケーションが新しいメッセージがあるかどうかを確認する期間を最小化し、2 に設定しました。
コードまたはアドバイスの変更は大歓迎です。
以下は ReadMessages クラスです。
package smsapp;
import java.util.ArrayList;
import java.util.List;
import org.smslib.AGateway;
import org.smslib.AGateway.GatewayStatuses;
import org.smslib.AGateway.Protocols;
import org.smslib.ICallNotification;
import org.smslib.IGatewayStatusNotification;
import org.smslib.IInboundMessageNotification;
import org.smslib.IOrphanedMessageNotification;
import org.smslib.InboundMessage;
import org.smslib.InboundMessage.MessageClasses;
import org.smslib.Library;
import org.smslib.Message.MessageTypes;
import org.smslib.Service;
import org.smslib.modem.SerialModemGateway;
public class ReadMessages {
public static int lastMemoryIndex = 0;
public void doIt() throws Exception {
// Define a list which will hold the read messages.
List<InboundMessage> msgList;
// Create the notification callback method for inbound & status report
// messages.
InboundNotification inboundNotification = new InboundNotification();
// Create the notification callback method for inbound voice calls.
CallNotification callNotification = new CallNotification();
//Create the notification callback method for gateway statuses.
GatewayStatusNotification statusNotification = new GatewayStatusNotification();
OrphanedMessageNotification orphanedMessageNotification = new OrphanedMessageNotification();
try {
System.out.println("Example: Read messages from a serial gsm modem.");
System.out.println(Library.getLibraryDescription());
System.out.println("Version: " + Library.getLibraryVersion());
// Create the Gateway representing the serial GSM modem.
SerialModemGateway gateway = new SerialModemGateway("modem.COM9", "COM9", 115200, "", "");
// Set the modem protocol to PDU (alternative is TEXT). PDU is the default, anyway...
gateway.setProtocol(Protocols.PDU);
// Do we want the Gateway to be used for Inbound messages?
gateway.setInbound(true);
// Do we want the Gateway to be used for Outbound messages?
gateway.setOutbound(true);
// Let SMSLib know which is the SIM PIN.
gateway.setSimPin("4236");
// Set up the notification methods.
Service.getInstance().setInboundMessageNotification(inboundNotification);
Service.getInstance().setCallNotification(callNotification);
Service.getInstance().setGatewayStatusNotification(statusNotification);
Service.getInstance().setOrphanedMessageNotification(orphanedMessageNotification);
// Add the Gateway to the Service object.
Service.getInstance().addGateway(gateway);
// Similarly, you may define as many Gateway objects, representing
// various GSM modems, add them in the Service object and control all of them.
// Start! (i.e. connect to all defined Gateways)
Service.getInstance().startService();
Service.getInstance().S.CNMI_EMULATOR_INTERVAL = 2;
Service.getInstance().S.WATCHDOG_INTERVAL = 3;
// Printout some general information about the modem.
System.out.println("CNMI_EMULATOR_INTERVAL " + Service.getInstance().S.CNMI_EMULATOR_INTERVAL);
System.out.println("WATCHDOG_INTERVAL " + Service.getInstance().S.WATCHDOG_INTERVAL);
System.out.println();
System.out.println("Modem Information:");
System.out.println(" Manufacturer: " + gateway.getManufacturer());
System.out.println(" Model: " + gateway.getModel());
System.out.println(" Serial No: " + gateway.getSerialNo());
System.out.println(" SIM IMSI: " + gateway.getImsi());
System.out.println(" Signal Level: " + gateway.getSignalLevel() + " dBm");
System.out.println(" Battery Level: " + gateway.getBatteryLevel() + "%");
System.out.println();
// In case you work with encrypted messages, its a good time to declare your keys.
// Create a new AES Key with a known key value.
// Register it in KeyManager in order to keep it active. SMSLib will then automatically
// encrypt / decrypt all messages send to / received from this number.
// Service.getInstance().getKeyManager().registerKey("+306948494037", new AESKey(new SecretKeySpec("0011223344556677".getBytes(), "AES")));
// Read Messages. The reading is done via the Service object and
// affects all Gateway objects defined. This can also be more directed to a specific
// Gateway - look the JavaDocs for information on the Service method calls.
msgList = new ArrayList<InboundMessage>();
Service.getInstance().readMessages(msgList, MessageClasses.ALL);
int size = msgList.size();
for (int x = 0; x < size; x++) {
InboundMessage msg = msgList.get(x);
if (x == (size - 1)) {
System.out.println(msg.getMemIndex() + " " + msg.getText());
}
lastMemoryIndex = (int) msg.getMemIndex();
}
// for (InboundMessage msg : msgList) {
// System.out.println(msg.getMessageId() +" "+msg.getText());
// }
// Sleep now. Emulate real world situation and give a chance to the notifications
// methods to be called in the event of message or voice call reception.
System.out.println("Now Sleeping - Hit <enter> to stop service.");
System.in.read();
} catch (Exception e) {
e.printStackTrace();
} finally {
Service.getInstance().stopService();
}
}
public class InboundNotification implements IInboundMessageNotification {
public void process(AGateway gateway, MessageTypes msgType, InboundMessage msg) {
if (msgType == MessageTypes.INBOUND) {
String originator = msg.getOriginator();
// System.out.println(" >>> New Inbound message detected from Gateway: " + gateway.getGatewayId());
int newIndex = (int) msg.getMemIndex();
if (newIndex > lastMemoryIndex) {
System.out.println(msg.getDate() + " " + msg.getText());
String message = msg.getText();
String[] details = dbutils.checker.getLipaDetails(message);
String lipa_code = details[0];
String lipa_date = details[1];
String lipa_time = details[2];
String lipa_amount = details[3];
String lipa_sys_amount = details[4];
String phone_number = details[5];
String names = details[6];
String received = "no";
String cashier = f_SuperMarket.SuperMarketViews.salesPerson.getText();
String sysdate = dbutils.formatedDate.getdate();
String systime = dbutils.formatedDate.getTime();
String date = dbutils.formatedDate.getDateFromDB(sysdate);
String time = dbutils.formatedDate.getTimeFromDb(systime);
dbutils.updateTables.newLipaNaMpesaEntry(lipa_code, lipa_date, lipa_time, lipa_amount, phone_number,
names, sysdate, date, systime, time, received, cashier, message);
// try {
// Service.getInstance().deleteMessage(msg);
// } catch (Exception e) {
// }
refreshLipaTable();
lastMemoryIndex = newIndex;
}
} else if (msgType == MessageTypes.STATUSREPORT) {
System.out.println(">>> New Inbound Status Report message detected from Gateway: " + gateway.getGatewayId());
}
}
}
public static void refreshLipaTable() {
String columns = "LIPA_CODE,LIPA_AMOUNT,LIPA_DATE,LIPA_TIME,NAMES";
dbutils.updateTables.refreshTable(columns, "lipanampesa", f_SuperMarket.MakePayment.lipaTable);
}
public class CallNotification implements ICallNotification {
public void process(AGateway gateway, String callerId) {
System.out.println(">>> New call detected from Gateway: " + gateway.getGatewayId() + " : " + callerId);
}
}
public class GatewayStatusNotification implements IGatewayStatusNotification {
public void process(AGateway gateway, GatewayStatuses oldStatus, GatewayStatuses newStatus) {
System.out.println(">>> Gateway Status change for " + gateway.getGatewayId() + ", OLD: " + oldStatus + " -> NEW: " + newStatus);
}
}
public class OrphanedMessageNotification implements IOrphanedMessageNotification {
public boolean process(AGateway gateway, InboundMessage msg) {
System.out.println(">>> Orphaned message part detected from " + gateway.getGatewayId());
System.out.println(msg);
// Since we are just testing, return FALSE and keep the orphaned message part.
return false;
}
}
public static void main(String args[]) {
ReadMessages app = new ReadMessages();
try {
app.doIt();
} catch (Exception e) {
e.printStackTrace();
}
}
}