Im using the project from OpenNETCF.org to check when a new image is created in \\My Documents\\My Pictures by the camera. I have the following code (add a listBox and button to your form)
namespace OpenNETCFApplication1
{
using System;
using System.Drawing;
using System.Collections;
using System.Windows.Forms;
using System.Data;
using OpenNETCF;
using OpenNETCF.Drawing;
using OpenNETCF.Windows.Forms;
using OpenNETCF.IO;
/// <summary>
/// Summary description for Form1.
/// </summary>
public class Form1 : System.Windows.Forms.Form
{
private System.Windows.Forms.Button button1;
private System.Windows.Forms.ListBox listBox1;
private System.Windows.Forms.MainMenu mainMenu1;
public Form1()
{
//
// Required for Windows Form Designer support
//
InitializeComponent();
//
// TODO: Add any constructor code after InitializeComponent call
//
}
/// <summary>
/// Clean up any resources being used.
/// </summary>
protected override void Dispose( bool disposing )
{
base.Dispose( disposing );
}
#region Windows Form Designer generated code
/// <summary>
/// Required method for Designer support - do not modify
/// the contents of this method with the code editor.
/// </summary>
private void InitializeComponent()
{
this.mainMenu1 = new System.Windows.Forms.MainMenu();
this.button1 = new System.Windows.Forms.Button();
this.listBox1 = new System.Windows.Forms.ListBox();
//
// button1
//
this.button1.Location = new System.Drawing.Point(88, 32);
this.button1.Text = "button1";
this.button1.Click += new System.EventHandler(this.button1_Click);
//
// listBox1
//
this.listBox1.Location = new System.Drawing.Point(72, 88);
this.listBox1.Size = new System.Drawing.Size(100, 93);
//
// Form1
//
this.Controls.Add(this.listBox1);
this.Controls.Add(this.button1);
this.Menu = this.mainMenu1;
this.Text = "Form1";
}
#endregion
/// <summary>
/// The main entry point for the application.
/// </summary>
static void Main()
{
ApplicationEx.Run(new Form1());
}
FileSystemWatcher myWatcher = new FileSystemWatcher("\\My Documents\\My Pictures");
private void button1_Click(object sender, System.EventArgs e)
{
myWatcher.Filter = "*.jpg";
myWatcher.Created+=new FileSystemEventHandler(myWatcher_Created);
myWatcher.Changed+=new FileSystemEventHandler(myWatcher_Changed);
myWatcher.Deleted+=new FileSystemEventHandler(myWatcher_Deleted);
myWatcher.Renamed+=new RenamedEventHandler(myWatcher_Renamed);
myWatcher.EnableRaisingEvents = true;
}
private void myWatcher_Created(object sender, FileSystemEventArgs e)
{
listBox1.Items.Add(String.Format("File system event: File {0} {1}",
e.FullPath, e.ChangeType));
}
private void myWatcher_Changed(object sender, FileSystemEventArgs e)
{
/* listBox1.Items.Add(String.Format("File system event: File {0} {1}",
e.FullPath, e.ChangeType)); */
}
private void myWatcher_Deleted(object sender, FileSystemEventArgs e)
{
/* listBox1.Items.Add(String.Format("File system event: File {0} {1}",
e.FullPath, e.ChangeType)); */
}
private void myWatcher_Renamed(object sender, RenamedEventArgs e)
{
/* listBox1.Items.Add(String.Format("File system event: File {0} {1}",
e.FullPath, e.ChangeType)); */
}
}
}
the problem is the created event is never fired, and only fires when a new folder is created. Can anyone help?
Luke,
use the forums of openNETcf to get answers to your question. My experience is that you get real quick replies which help you to go on with your project.
Kind regards
Udo
OK, so been trying to figure out what happens when you use SEUS.
It checks for internet connection by loading this URL:
Code:
http://emma.extranet.sonyericsson.com/ns/no-cache
I've figured out quite a bit.
Sony Ericsson has implemented something called Tampered Device Service.
This checks if the devices has been tampered with.
This service works from this server:
Code:
tds.sonyericsson.com
Then for the actual firmware download.
This is done by downloading 2 *.ser.gz which tells SEUS what Software customization to get and is sessions specific.
The customization ser.gz file looks something like this:
Code:
CDA=1233-7027_NjKhzOzTUsfXvPg40lyh6aTl.ser.gz
And it's downloaded from:
Code:
emma.extranet.sonyericsson.com
It's done via some sort of search mechanism on the server.
That looks like this:
Code:
ns/usdoe1/2/script/search/TAC8=35941903/CDA=1233-7027_By5JACZqd1R7JOpLu6qvwK8N.ser.gz
After that it's downloading the actual firmware files.
They are downloaded in bin format which I haven't been able to unpack yet.
They are also downloaded from the emma server and is named something like:
Code:
277795427_k9ABo3YVh+8klYUKwllGLDcJ.bin - ~14.3 MB
277835617_ZpJseUr9e09U5h2Cz81+5vcT.bin ~149 MB
Then it does a netbios call which has some sort of HEX code.
And then check the Internet connection again:
Code:
http://emma.extranet.sonyericsson.com/ns/no-cache
Now it starts up a service called:
Code:
/fq/ServiceClientDbServlet
This service runs from this server:
Code:
ma3.extranet.sonyericsson.com
This last part is done twice in a row.
Inside one of the *ser.gz files is a *.ser file which contains some code and instructions. Some parts is encrypted but most of the code is not.
See the complete code in post #2
I don't quite know what to do with all this info yet.
But hopefully something useful will come of this.
Just wanted to share a bit of my knowledge, hope it's useful for some of you here.
Code:
import com.sonyericsson.cs.ma.tess.api.ServiceException;
import com.sonyericsson.cs.ma.tess.api.ServiceRuntimeException;
import com.sonyericsson.cs.ma.tess.api.TessFile;
import com.sonyericsson.cs.ma.tess.api.UI;
import com.sonyericsson.cs.ma.tess.api.device.IdentificationResult;
import com.sonyericsson.cs.ma.tess.api.inject.InjectConfigValue;
import com.sonyericsson.cs.ma.tess.api.inject.InjectRef;
import com.sonyericsson.cs.ma.tess.api.inject.IncludeFor;
import com.sonyericsson.cs.ma.tess.api.inject.ServiceMethod;
import com.sonyericsson.cs.ma.tess.api.logging.Logging;
import com.sonyericsson.cs.ma.tess.api.protocols.DataArea;
import com.sonyericsson.cs.ma.tess.api.protocols.ProtocolFactory;
import com.sonyericsson.cs.ma.tess.api.protocols.VersionResponse;
import com.sonyericsson.cs.ma.tess.api.protocols.s1.S1Protocol;
import com.sonyericsson.cs.ma.tess.api.protocols.s1.S1Protocol.ShutdownMode;
import com.sonyericsson.cs.ma.tess.api.secs.SECSUnitData;
import com.sonyericsson.cs.ma.tess.api.secs.SECSUtil;
import com.sonyericsson.cs.ma.tess.api.service.ServiceResult;
import com.sonyericsson.cs.ma.tess.api.service.ServiceResultType;
import com.sonyericsson.cs.ma.tess.api.service.ServiceType;
import com.sonyericsson.cs.ma.tess.api.statistics.DiagnosticsUtil;
import com.sonyericsson.cs.ma.tess.api.statistics.StatisticsUtil;
import com.sonyericsson.cs.ma.tess.api.statistics.StatisticsUtil.SoftwareComponent;
import com.sonyericsson.cs.ma.tess.api.ta.TAUnit;
import com.sonyericsson.cs.ma.tess.api.util.StringUtil;
import com.sonyericsson.cs.ma.tess.api.x10.MarlinCertificateUpdate;
import com.sonyericsson.cs.ma.tess.api.zip.ZipFileUtil;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import org.w3c.dom.Document;
/**
* S1 QSD8250 eSheep platform Main Services implementation.
*
* Services in this logic implemented for use in COMMERCIAL services!
*
*/
public class S1QSD8250eSheepMainServicesLIVE
{
@InjectRef
private ProtocolFactory aProtocolFactory;
@InjectRef
private UI aUI;
@InjectRef
private Logging aLogger;
@InjectRef
private IdentificationResult aIdentifiers;
@InjectRef
private ZipFileUtil aZipFileUtil;
@InjectRef
private static DiagnosticsUtil aDiagnostics;
@InjectRef
private StatisticsUtil aStatistics;
@InjectRef
private SECSUtil aSECS;
@InjectRef
private StringUtil aStringUtil;
@InjectRef
private ClientEnvironment aClientEnvironment;
@InjectRef
private MarlinCertificateUpdate marlinCertUpdate;
// File references
// Loader reference
@InjectConfigValue("cLOADER")
private TessFile aLoader;
// App-SW reference - Exclude from Activation
@IncludeFor([ServiceType.CUSTOMIZE, ServiceType.SOFTWARE_UPDATE,
ServiceType.SOFTWARE_UPDATE_CONTENT_REFRESH])
@InjectConfigValue("cAPP_SW")
private TessFile aAppSW;
// FSP Reference - Exclude from Activation
@IncludeFor([ServiceType.CUSTOMIZE, ServiceType.SOFTWARE_UPDATE,
ServiceType.SOFTWARE_UPDATE_CONTENT_REFRESH])
@InjectConfigValue("cFSP")
private TessFile aFSP;
// miscTA units
// Startup/Shutdown flag used for indicating successful flash.
@InjectConfigValue("cTA_FLASH_STARTUP_SHUTDOWN_RESULT")
private String aStrTaFlashStartShutdownResult;
// Startup/Shutdown flag used for indicating successful flash.
@InjectConfigValue("cTA_EDREAM_FLASH_IN_PROGRESS")
private String aStrTaEDreamFlashStartShutdownResult;
// SIMlock data unit
@InjectConfigValue("cTA_SIMLOCK_DATA")
private String aStrTaSimlockData;
// Loose temp data unit
@InjectConfigValue("cTA_LOOSE_TEMP")
private String aStrTaLooseTemp;
// TA_APPLICATION_BUFFER_DATA_ARRAY[2]
@InjectConfigValue("cTA_APPLICATION_BUFFER_DATA_ARRAY2")
private String aStrTaApplicationBufferDataArray2;
// TA_APPLICATION_BUFFER_DATA_ARRAY[3]
@InjectConfigValue("cTA_APPLICATION_BUFFER_DATA_ARRAY3")
private String aStrTaApplicationBufferDataArray3;
// TA_MARLIN_DRM_KEY_UPDATE_FLAG
@InjectConfigValue("cTA_MARLIN_DRM_KEY_UPDATE_FLAG")
private String aStrTaMarlinDRMKeyUpdateFlag;
// Parameter names
@InjectConfigValue("cTA_APPLICATION_BUFFER_DATA_ARRAY0_NAME")
private String aTaApplicationBufferDataArray0Name;
@InjectConfigValue("cTA_APPLICATION_BUFFER_DATA_ARRAY1_NAME")
private String aTaApplicationBufferDataArray1Name;
@InjectConfigValue("cTA_APPLICATION_BUFFER_DATA_ARRAY2_NAME")
private String aTaApplicationBufferDataArray2Name;
@InjectConfigValue("cTA_APPLICATION_BUFFER_DATA_ARRAY3_NAME")
private String aTaApplicationBufferDataArray3Name;
@InjectConfigValue("cTA_SIMLOCK_DATA_NAME")
private String aTaSimlockDataName;
@InjectConfigValue("cTA_LOOSE_TEMP_NAME")
private String aTaLooseTempName;
@InjectConfigValue("cVERSION_RESPONSE")
private String aVersionResponseName;
// miscTA unit values
// Startup/Shutdown flag, cTA_FLASH_STARTUP_SHUTDOWN_RESULT, values
@InjectConfigValue("cTA_FLASH_STARTUP_SHUTDOWN_RESULT_ONGOING_VALUE")
private String aTaFlashStartupShutdownResultOngoingValue;
@InjectConfigValue("cTA_FLASH_STARTUP_SHUTDOWN_RESULT_FINISHED_VALUE")
private String aTaFlashStartupShutdownResultFinishedValue;
// Startup/Shutdown flag, cTA_EDREAM_FLASH_STARTUP_SHUTDOWN_RESULT, values
@InjectConfigValue("cTA_EDREAM_FLASH_FLASH_IN_PROGRESS_ONGOING")
private String aTaEDreamFlashStartupShutdownResultOngoingValue;
@InjectConfigValue("cTA_EDREAM_FLASH_FLASH_IN_PROGRESS_COMPLETED")
private String aTaEDreamFlashStartupShutdownResultFinishedValue;
// Update.xml values
// File name
private static String UPDATE_XML_FILE_NAME = "update.xml";
// NOERASE tag value
private static String UPDATE_XML_NOERASE_TAG = "NOERASE";
// SIMLOCK tag value
private static String UPDATE_XML_SIMLOCK_TAG = "SIMLOCK";
// PRESERVECACHE tag value
private static String UPDATE_XML_PRESERVECACHE_TAG = "PRESERVECACHE";
// UI Progress texts
@InjectConfigValue("cSEND_DATA")
private String aSendDataText;
@InjectConfigValue("cSEND_DATA_DONE")
private String aSendDataDoneText;
@InjectConfigValue("cSERVICE_FINALIZING")
private String aServiceFinalizingText;
@InjectConfigValue("cSERVICE_FINALIZING_DONE")
private String aServiceFinalizingDoneText;
@InjectConfigValue("cSERVICE_INITIALIZATION")
private String aServiceInitializationText;
@InjectConfigValue("cSERVICE_INITIALIZATION_DONE")
private String aServiceInitializationDoneText;
/**
* ACTIVATION
*
*/
@ServiceMethod(ServiceType.ACTIVATION)
public ServiceResult activation() throws ServiceException
{
boolean vDoActivation = true;
showInitServiceText();
try
{
S1Protocol vS1 = aProtocolFactory.getProtocol(S1Protocol.class);
int vTaSimlockData = Integer.parseInt(aStrTaSimlockData);
int vTaLooseTemp = Integer.parseInt(aStrTaLooseTemp);
int vTaApplicationBufferDataArray2 =
Integer.parseInt(aStrTaApplicationBufferDataArray2);
int vTaApplicationBufferDataArray3 =
Integer.parseInt(aStrTaApplicationBufferDataArray3);
// Check if activation is needed?
// Send loader
vS1.sendFile(aLoader);
vS1.openDataArea(DataArea.MISC_TA);
// Read the SIMlock data from TA_SIMLOCK_DATA
byte[] vSIMlockData = vS1.readDataArea(vTaSimlockData);
if (vSIMlockData != null && vSIMlockData.length >= 20)
{
// Check 20 first bytes (if set to 0)
for (int vI = 0; vI < 20; vI++)
{
if (vSIMlockData[vI] != 0)
{
vDoActivation = false;
break;
}
}
}
else
{
aLogger
.error("Could not determine if activation is needed. Not possible to read enough data.");
throw new ServiceRuntimeException("Error when activating phone.");
}
// Do activation?
if (vDoActivation)
{
// Verify that the dongle is present
aSECS.ensureDongleReady();
String vIMEI = aIdentifiers.getIMEI();
SECSUnitData[] vInputData = getS1SIMLockSignatureInputData(vS1);
SECSUnitData[] vOutputData =
vS1.getS1SIMLockSignature(vInputData, vIMEI);
if (vOutputData != null && vOutputData.length > 6)
{
byte[] vEmpty = new byte[1];
vEmpty[0] = 0x00;
vS1.writeToDataArea(vTaApplicationBufferDataArray2, vEmpty);
vS1.writeToDataArea(
vTaApplicationBufferDataArray3,
vOutputData[3].getUnitData());
vS1
.writeToDataArea(vTaSimlockData, vOutputData[4]
.getUnitData());
vS1.writeToDataArea(vTaLooseTemp, vOutputData[5].getUnitData());
}
else
{
aLogger.error("Not enough data in response from SECS server.");
throw new ServiceRuntimeException(
"Error occured when communicating with server.");
}
}
else
{
aUI
.showText("ACTIVATION NOT NEEDED! This unit has been "
+ "activated already. The service is exiting without execution.");
}
showFinalizingText();
vS1.closeDataArea();
vS1.shutdownDevice(ShutdownMode.DISCONNECT);
}
catch (ServiceException pEx)
{
aLogger.error("Exception when executing ACTIVATION service.", pEx);
throw pEx;
}
return ServiceResult.SUCCESSFUL;
}
/**
* CUSTOMIZE
*
*/
@ServiceMethod(ServiceType.CUSTOMIZE)
public ServiceResult customize() throws ServiceException
{
showInitServiceText();
ServiceResult vServiceResult =
new ServiceResult(
ServiceResultType.SUCCESSFUL,
"Customize EXECUTED! ACTIVATION NEEDED!",
null);
try
{
S1Protocol vS1 = aProtocolFactory.getProtocol(S1Protocol.class);
int vTaSimlockData = Integer.parseInt(aStrTaSimlockData);
int vTaLooseTemp = Integer.parseInt(aStrTaLooseTemp);
showSendingDataText();
// Send loader
vS1.sendFile(aLoader);
vS1.openDataArea(DataArea.MISC_TA);
readDID(vS1);
updateMartinKey(vS1);
setFlashStartupShutdownFlagOngoing(vS1);
// Send App-SW
sendFile(vS1, aAppSW);
// Send FSP
if ("false".equalsIgnoreCase(aFSP.getProperty("SIMLockCustomized"))
&& "true".equalsIgnoreCase(aIdentifiers
.getIdentifier("SIMLockReusable")))
{
// quick-customize
String[] vExcludeTags = new String[1];
vExcludeTags[0] = UPDATE_XML_SIMLOCK_TAG;
String[] vFilesToExcludeFromFSP = parseFile(aFSP, vExcludeTags);
// Send FSP
sendZipFile(vS1, aFSP, vFilesToExcludeFromFSP);
vServiceResult =
new ServiceResult(
ServiceResultType.SUCCESSFUL,
"Quick Customize EXECUTED! NO ACTIVATION NEEDED!",
null);
}
else
{
// customize
// Tamper the simlock data
tamperSimlockData(vS1);
// Set the simlock data unit id to loose temp
aFSP.modifyData(vTaSimlockData, vTaLooseTemp);
sendFile(vS1, aFSP);
}
setFlashStartupShutdownFlagFinished(vS1);
showSendingDataTextDone();
showFinalizingText();
vS1.closeDataArea();
vS1.shutdownDevice(ShutdownMode.DISCONNECT);
storeSoftwareAfterStatistics();
}
catch (ServiceException pEx)
{
aLogger.error("Exception when executing CUSTOMIZE service.", pEx);
throw pEx;
}
return vServiceResult;
}
/**
* SOFTWARE UPDATE
*
*/
@ServiceMethod(ServiceType.SOFTWARE_UPDATE)
public ServiceResult softwareUpdate() throws ServiceException
{
showInitServiceText();
try
{
S1Protocol vS1 = aProtocolFactory.getProtocol(S1Protocol.class);
showSendingDataText();
// Send loader
vS1.sendFile(aLoader);
vS1.openDataArea(DataArea.MISC_TA);
readDID(vS1);
updateMartinKey(vS1);
// Search the APP-SW zip file for xml file and metadata. Exclude user
// data
String[] vExcludeTags = new String[1];
vExcludeTags[0] = UPDATE_XML_NOERASE_TAG;
String[] vFilesToExcludeFromAPPSW = parseFile(aAppSW, vExcludeTags);
// Search the FSP zip file for xml file and metadata. Exclude user data
// and simlock if existing
vExcludeTags = new String[2];
vExcludeTags[0] = UPDATE_XML_NOERASE_TAG;
vExcludeTags[1] = UPDATE_XML_SIMLOCK_TAG;
String[] vFilesToExcludeFromFSP = parseFile(aFSP, vExcludeTags);
setFlashStartupShutdownFlagOngoing(vS1);
// Send App-SW
// Anything to exclude?
if (vFilesToExcludeFromAPPSW != null
&& vFilesToExcludeFromAPPSW.length > 0)
{
sendZipFile(vS1, aAppSW, vFilesToExcludeFromAPPSW);
}
else
{
sendFile(vS1, aAppSW);
}
// Send FSP
sendZipFile(vS1, aFSP, vFilesToExcludeFromFSP);
setFlashStartupShutdownFlagFinished(vS1);
showSendingDataTextDone();
showFinalizingText();
vS1.closeDataArea();
vS1.shutdownDevice(ShutdownMode.DISCONNECT);
storeSoftwareAfterStatistics();
}
catch (ServiceException pEx)
{
aLogger
.error("Exception when executing SOFTWARE UPDATE service.", pEx);
throw pEx;
}
return ServiceResult.SUCCESSFUL;
}
/**
* SOFTWARE UPDATE CONTENT REFRESH
*
*/
@ServiceMethod(ServiceType.SOFTWARE_UPDATE_CONTENT_REFRESH)
public ServiceResult softwareUpdateContentRefresh() throws ServiceException
{
showInitServiceText();
try
{
S1Protocol vS1 = aProtocolFactory.getProtocol(S1Protocol.class);
showSendingDataText();
// Send loader
vS1.sendFile(aLoader);
vS1.openDataArea(DataArea.MISC_TA);
readDID(vS1);
updateMartinKey(vS1);
// Search the FSP zip file for xml file and metadata. Exclude
// simlock if existing
String[] vExcludeTags = new String[0];
aLogger.debug("isSwapEnabled is: "
+ aClientEnvironment.isSwapEnabled());
// Check the client environment.
if (!aClientEnvironment.isSwapEnabled())
{
aLogger.debug("Cache partition will be preserved.");
vExcludeTags = new String[1];
vExcludeTags[0] = UPDATE_XML_PRESERVECACHE_TAG;
}
// Temporarily catch the exception
String[] vFilesToExcludeFromAPPSW = parseFile(aAppSW, vExcludeTags);
vExcludeTags = new String[1];
vExcludeTags[0] = UPDATE_XML_SIMLOCK_TAG;
String[] vFilesToExcludeFromFSP = parseFile(aFSP, vExcludeTags);
setFlashStartupShutdownFlagOngoing(vS1);
// Anything to exclude?
if (vFilesToExcludeFromAPPSW != null
&& vFilesToExcludeFromAPPSW.length > 0)
{
sendZipFile(vS1, aAppSW, vFilesToExcludeFromAPPSW);
}
else
{
sendFile(vS1, aAppSW);
}
// Send FSP
sendZipFile(vS1, aFSP, vFilesToExcludeFromFSP);
setFlashStartupShutdownFlagFinished(vS1);
showSendingDataTextDone();
showFinalizingText();
vS1.closeDataArea();
vS1.shutdownDevice(ShutdownMode.DISCONNECT);
storeSoftwareAfterStatistics();
}
catch (ServiceException pEx)
{
aLogger
.error(
"Exception when executing SOFTWARE UPDATE CONTENT REFRESH service.",
pEx);
throw pEx;
}
return ServiceResult.SUCCESSFUL;
}
/**
* Private help method to get DID data from device, if available.
*
*/
private void readDID(S1Protocol pS1)
{
byte[] vEmptyUnit = new byte[0];
List<TAUnit> vUnits = new ArrayList<TAUnit>();
aLogger.debug("Reading diagnostic data.");
final int vLastUnit = 10009;
final int vFirstUnit = 10000;
for (int vUnit = vFirstUnit; vUnit <= vLastUnit; vUnit++)
{
try
{
byte[] vData = pS1.readDataArea(vUnit);
if (vData != null && vData.length > 0)
{
pS1.writeToDataArea(vUnit, vEmptyUnit);
vUnits.add(new TAUnit(vUnit, vData));
}
}
catch (ServiceException vServiceException)
{
}
}
if (vUnits.size() > 0)
{
byte[] vDiagnosticData;
try
{
aLogger.debug("Diagnostic data found, sending diagnostic data.");
vDiagnosticData = aDiagnostics.createDiagnosticData(vUnits);
aDiagnostics.storeDiagnostic(aIdentifiers.getIMEI(), aIdentifiers
.getApplicationSoftwareID(), aIdentifiers
.getApplicationSoftwareRev(), vDiagnosticData, "06");
}
catch (ServiceException pEx)
{
}
}
}
/**
* Private help method to tamper the simlock data.
*
*/
private void tamperSimlockData(S1Protocol pS1) throws ServiceException
{
int vTaSimlockData = Integer.parseInt(aStrTaSimlockData);
// Read the SIMlock data from TA_SIMLOCK_DATA
byte[] vSIMlockData = pS1.readDataArea(vTaSimlockData);
if (vSIMlockData != null && vSIMlockData.length > 0)
{
// Tamper 20 first bytes (set to 0)
// Make sure enough data is read
if (vSIMlockData.length >= 20)
{
for (int vI = 0; vI < 20; vI++)
{
vSIMlockData[vI] = 0;
}
}
else
{
throw new ServiceRuntimeException(
"Data read, but not enough to tamper.");
}
// Write back the tampered SIMlock data to TA_SIMLOCK_DATA
pS1.writeToDataArea(vTaSimlockData, vSIMlockData);
}
else
{
throw new ServiceRuntimeException("Could not read data.");
}
}
/**
* Private help method to get S1 SIMlock signature input data from device.
*
*/
private SECSUnitData[] getS1SIMLockSignatureInputData(S1Protocol pS1)
throws ServiceException
{
SECSUnitData[] vSECSUnitData = new SECSUnitData[7];
int vTaSimlockData = Integer.parseInt(aStrTaSimlockData);
int vTaLooseTemp = Integer.parseInt(aStrTaLooseTemp);
int vTaApplicationBufferDataArray3 =
Integer.parseInt(aStrTaApplicationBufferDataArray3);
byte[] vEmpty = new byte[1];
vEmpty[0] = 0x00;
vSECSUnitData[0] =
new SECSUnitData(aTaApplicationBufferDataArray0Name, vEmpty);
vSECSUnitData[1] =
new SECSUnitData(aTaApplicationBufferDataArray1Name, vEmpty);
vSECSUnitData[2] =
new SECSUnitData(aTaApplicationBufferDataArray2Name, vEmpty);
byte[] vInputUnitData = pS1.readDataArea(vTaApplicationBufferDataArray3);
vSECSUnitData[3] =
new SECSUnitData(aTaApplicationBufferDataArray3Name, vInputUnitData);
vInputUnitData = pS1.readDataArea(vTaSimlockData);
vSECSUnitData[4] = new SECSUnitData(aTaSimlockDataName, vInputUnitData);
vInputUnitData = pS1.readDataArea(vTaLooseTemp);
vSECSUnitData[5] = new SECSUnitData(aTaLooseTempName, vInputUnitData);
VersionResponse vVersionResponse = pS1.getVersionResponse();
byte[] vVersionResponseArray =
vVersionResponse.getVersionResponseAsBytes();
vInputUnitData = vVersionResponseArray;
vSECSUnitData[6] = new SECSUnitData(aVersionResponseName, vInputUnitData);
return vSECSUnitData;
}
/**
* Parses the specified file for a xml metadata file and the parses the xml
* file for the tags defined. Tag values are then returned as a string array.
*
*/
private String[] parseFile(TessFile pFile, String[] pTags)
throws ServiceException
{
ArrayList<String> vResult = new ArrayList<String>();
Document vUpdateXML =
aZipFileUtil.getXMLFile(pFile, UPDATE_XML_FILE_NAME);
if (vUpdateXML != null)
{
if (pTags != null)
{
for (String vTag : pTags)
{
String[] vFilesFound =
aZipFileUtil.getXMLTextContentByTagName(vUpdateXML, vTag);
if (vFilesFound != null && vFilesFound.length > 0)
{
aLogger.debug("Found files to exclude from "
+ pFile.getFileName()
+ " from tag "
+ vTag
+ " in "
+ UPDATE_XML_FILE_NAME
+ ":");
for (String vFileName : vFilesFound)
{
aLogger.debug(vFileName);
}
vResult.addAll(Arrays.asList(vFilesFound));
}
}
}
}
else
{
aLogger.debug("No " + UPDATE_XML_FILE_NAME + " found");
// throw new
throw new ServiceRuntimeException("Could not find a "
+ UPDATE_XML_FILE_NAME
+ " in the zip file, abort.");
}
return vResult.toArray(new String[vResult.size()]);
}
private void updateMartinKey(S1Protocol pS1) throws ServiceException
{
int vTaMarlinDRMKeyUpdateFlag =
Integer.parseInt(aStrTaMarlinDRMKeyUpdateFlag);
byte[] vFlagValue = null;
pS1.openDataArea(DataArea.MISC_TA);
// check the flag
try
{
vFlagValue = pS1.readDataArea(vTaMarlinDRMKeyUpdateFlag);
if (vFlagValue != null
&& aStringUtil
.convertByteArrayToString(vFlagValue)
.equalsIgnoreCase("01"))
{
// updated already
return;
}
}
catch (ServiceException vServiceException)
{
// exception indicates no update has been done
}
// check if update is available for this unit
if (marlinCertUpdate.isNewCertificateAvailable())
{
// update the cert
InputStream vTAFileInputStream =
marlinCertUpdate.getCertificateTAInputStream();
pS1.sendTAFileFromStream(vTAFileInputStream);
aLogger.debug("Marlin key updated.");
}
// set the flag as updated
pS1.writeToDataArea(vTaMarlinDRMKeyUpdateFlag, aStringUtil
.convertStringToByteArray("0x01"));
return;
}
/**
* Private help method to set the flash ongoing flag to ongoing.
*
* @throws ServiceException
*
*/
private void setFlashStartupShutdownFlagOngoing(S1Protocol pS1)
throws ServiceException
{
int vTaFlashStartupShutdownResult =
Integer.parseInt(aStrTaFlashStartShutdownResult);
int vTaEDreamFlashStartupShutdownResult =
Integer.parseInt(aStrTaEDreamFlashStartShutdownResult);
// Set the TA_FLASH_STARTUP_SHUTDOWN_RESULT (2227) flag to 0xA0000000 to
// indicate
// flash ongoing
pS1
.writeToDataArea(
vTaFlashStartupShutdownResult,
aStringUtil
.convertStringToByteArray(aTaFlashStartupShutdownResultOngoingValue));
// Set the 10100 flag specific for eDream
// Set the TA_EDREAM_FLASH_STARTUP_SHUTDOWN_RESULT (10100) flag to 0x01 to
// indicate
// flash ongoing
pS1
.writeToDataArea(
vTaEDreamFlashStartupShutdownResult,
aStringUtil
.convertStringToByteArray(aTaEDreamFlashStartupShutdownResultOngoingValue));
}
/**
* Private help method to set the flash ongoing flag to finished.
*
* @throws ServiceException
*
*/
private void setFlashStartupShutdownFlagFinished(S1Protocol pS1)
throws ServiceException
{
int vTaFlashStartupShutdownResult =
Integer.parseInt(aStrTaFlashStartShutdownResult);
int vTaEDreamFlashStartupShutdownResult =
Integer.parseInt(aStrTaEDreamFlashStartShutdownResult);
// Set the TA_FLASH_STARTUP_SHUTDOWN_RESULT (2227) flag to 0xAA000000 to
// indicate
// flash finished
pS1
.writeToDataArea(
vTaFlashStartupShutdownResult,
aStringUtil
.convertStringToByteArray(aTaFlashStartupShutdownResultFinishedValue));
// Set the 10100 flag specific for eDream
// Set the TA_EDREAM_FLASH_STARTUP_SHUTDOWN_RESULT (10100) flag to 0x00 to
// indicate flash finished
pS1
.writeToDataArea(
vTaEDreamFlashStartupShutdownResult,
aStringUtil
.convertStringToByteArray(aTaEDreamFlashStartupShutdownResultFinishedValue));
}
/**
* Private help method to store software and CDF ids and versions.
*
*/
private void storeSoftwareAfterStatistics()
{
String vAPPSWId = aAppSW.getProperty("Id");
String vAPPSWVer = aAppSW.getVersion();
String vCDFId = aFSP.getProperty("CDFId");
String vCDFVer = aFSP.getProperty("CDFVer");
if (vAPPSWId != null)
{
aStatistics.storeSoftwareAfter(
SoftwareComponent.SW1,
vAPPSWId,
vAPPSWVer);
}
if (vCDFId != null)
{
aStatistics.storeCustomizationAfter(vCDFId, vCDFVer);
}
}
private void sendZipFile(
S1Protocol pS1,
TessFile pFile,
String[] pFilesToExclude) throws ServiceException
{
aLogger.debug("Sending "
+ pFile.getFileName()
+ ", "
+ pFile.getVersion());
pS1.sendZipFile(pFile, pFilesToExclude);
}
private void sendFile(S1Protocol pS1, TessFile pFile)
throws ServiceException
{
aLogger.debug("Sending "
+ pFile.getFileName()
+ ", "
+ pFile.getVersion());
pS1.sendFile(pFile);
}
/**
* Private help method to display start sending data text.
*
*/
private void showSendingDataText()
{
aUI.showText(aSendDataText);
}
/**
* Private help method to display start sending data done text.
*
*/
private void showSendingDataTextDone()
{
aUI.showText(aSendDataDoneText);
}
/**
* Private help method to display start up and initialization text.
*
*/
private void showInitServiceText()
{
aUI.showText(aServiceInitializationText);
aUI.showText(aServiceInitializationDoneText);
aUI.showText("");
}
/**
* Private help method to display please wait text.
*
*/
private void showFinalizingText()
{
aUI.showText("");
aUI.showText(aServiceFinalizingText);
aUI.showText(aServiceFinalizingDoneText);
}
}
Reserved for future use.
wow seems u done some packet sniffing...
may be u should contact Bin4ry regarding this... he is involved in FreeXperia Project for Arc/Play...
i am sure he can shed some more light on this matter...
Figured out the *.bin files is the actual files that also goes in the blob_fs folder:
Code:
%programfiles%\Sony Ericsson\Update Service\db\
So they are decryptable using the known method.
Tampered Device Service does in fact check for Root and custom software.
Don't know if this will have an effect in the updating process from SEUS.
So, it's a bad news huh. Keep looking. Thanks for the info.
Sent from my X10i using XDA App
Confirmed that devices that has been rooted and modified in software will not be eligible for 2.3.3 update. You will have to flash back a stock unrooted firmware before updating to 2.3.3
Of course. SE said that in their blog. Better backup all data in SD Card and format it too. I don't think the SEUS' intelligent enough to check out that the SD Card contains CyanogenMod folder as busybox and xRecovery
EDIT: I tried to find the update 2.1 package in my computer after repaired my phone for several times and I can't find it. It's of course that it's deleted as soon as the update completed.
I believe SEUS works like the Flash Tool and Pay-Per-Update service through fastgsm.com and davince.
Flash Tool requires you to provide the firmware and place the sin files in the correct location.
Pay service requires a fee to install the correct sin files/firmware.
SEUS requires a CDA to determine which sin files/firmware to install.
I beg that the FlashTool works like SEUS cause without SEUS and other update services, where is FlashTool come from?
But what if SEUS change its method? Well, i still want to update and we will see how it goes.
Sent from my X10i using XDA App
Whatever method they choose, they can't close the door behind them. They need the access too. Flash Tool can be updated.
Nor would google allow that. JMHO
Yes, FT can be updated but it's development is kinda dead as of now, and we don't even have its source codes, so the other developers can't update it. Unless if Androxyde and Bin4ry want to work on FT again.
Hzu said:
Yes, FT can be updated but it's development is kinda dead as of now, and we don't even have its source codes, so the other developers can't update it. Unless if Androxyde and Bin4ry want to work on FT again.
Click to expand...
Click to collapse
Why are the devs acting like this is an issue? The Flash Tool already works on the ARC, so what are you worried about?
Work on Arc no mean it can work on X10, just like Arc has bootloader unlocked but no mean X10 can when update to 2.3.3
silveraero said:
Work on Arc no mean it can work on X10, just like Arc has bootloader unlocked but no mean X10 can when update to 2.3.3
Click to expand...
Click to collapse
You totally missed the point. The bootloader or root has NEVER mattered. When the NEVER has happened, then start your *****ing.
agentJBM said:
Why are the devs acting like this is an issue? The Flash Tool already works on the ARC, so what are you worried about?
Click to expand...
Click to collapse
What I mean is that IF SE changed their flashing method for the GB firmware and FT won't work for those who upgraded their X10 to GB. But another user has said that they won't since it requires them to start all over again.
Who knows, we're not the one who are developing the firmwares and we all should stop making assumptions(but some people aren't making assumptions, they are so sure they are right).
Hzu said:
What I mean is that IF SE changed their flashing method for the GB firmware and FT won't work for those who upgraded their X10 to GB. But another user has said that they won't since it requires them to start all over again.
Who knows, we're not the one who are developing the firmwares and we all should stop making assumptions(but some people aren't making assumptions, they are so sure they are right).
Click to expand...
Click to collapse
I am not pretending to know. However, you are failing to acknowledge that the Flash Tool is a modification of Update Service. The same method is used. Quit acting like this is nuclear science.
I told you, what IF they CHANGE the flashing method, then SEUS will also be updated with the new method.
Why am I repeating this anyway? Silly me.
Hi everyone.
I want to retrieve the current cpu frequency in my app but I don't seem to be right.
In my code I want to read the "scaling_cpu_freq" file from internal storage.
This is the code:
Code:
private String ReadCPUMhz() {
String cpuMaxFreq = "";
int cur = 0;
try {
[user=1299008]@supp[/user]ressWarnings("resource")
BufferedReader maxi = new BufferedReader(new FileReader(new File("/sys/devices/system/cpu/cpu0/cpufreq/scaling_max_freq")));
try{
cpuMaxFreq = maxi.readLine();
cur = Integer.parseInt(cpuMaxFreq);
cur = cur/1000;
} catch (Exception ex){
ex.printStackTrace();
}
} catch (FileNotFoundException f) {
f.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
}
return String.valueOf(cur);
}
The problem is that the method only returns 0, which is the initial value of the int "cur".
Can anybody help me?
Thanks in advance.
Here's the code I use:
Declare this class in your Activity
Code:
// Read current frequency from /sys in a separate thread
// This class assumes your TextView is declared and referenced in the OnCreate of the class this one is declared in
// And its variable name is mCurCpuFreq
protected class CurCPUThread extends Thread {
private static final String CURRENT_CPU = "/sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq";
private boolean mInterrupt = false;
public void interrupt() {
mInterrupt = true;
}
[user=439709]@override[/user]
public void run() {
try {
while (!mInterrupt) {
sleep(400);
final String curFreq = readOneLine(CURRENT_CPU);
mCurCPUHandler.sendMessage(mCurCPUHandler.obtainMessage(0,
curFreq));
}
} catch (InterruptedException e) {
return;
}
}
}
// Update real-time current frequency & stats in a separate thread
protected static Handler mCurCPUHandler = new Handler() {
public void handleMessage(Message msg) {
mCurFreq.setText(toMHz((String) msg.obj));
final int p = Integer.parseInt((String) msg.obj);
new Thread(new Runnable() {
public void run() {
// Here I update a real-time graph of the current freq
}
}
}).start();
}
};
Helper methods used :
Code:
// Convert raw collected values to formatted MhZ
private static String toMHz(String mhzString) {
if (Integer.valueOf(mhzString) != null)
return String.valueOf(Integer.valueOf(mhzString) / 1000) + " MHz";
else
return "NaN";
}
// Iterate through the /sys file
public static String readOneLine(String fname) {
BufferedReader br;
String line = null;
try {
br = new BufferedReader(new FileReader(fname), 512);
try {
line = br.readLine();
} finally {
br.close();
}
} catch (Exception e) {
Log.e(TAG, "IO Exception when reading sys file", e);
// attempt to do magic!
return readFileViaShell(fname, true);
}
return line;
}
// Backup method if the above one fails
public static String readFileViaShell(String filePath, boolean useSu) {
CommandResult cr = null;
if (useSu) {
cr = new CMDProcessor().runSuCommand("cat " + filePath);
} else {
cr = new CMDProcessor().runShellCommand("cat " + filePath);
}
if (cr.success())
return cr.getStdout();
return null;
}
CMDProcessor.java and its dependencies attached to this post
I'm an experienced developer but new to Android development. I have an app that runs some native binaries, and I provide a status indicator to show when the native process is running and when it's not. Currently I poll the device to figure this out, using the ActivityManager API to determine if specific processes are running or not.
I'm hoping there is some way to register a listener on process state changes, so I can get notified when my process starts or stops. I looked through the API, and there doesn't seem to be such a thing. Does anyone know how I can keep track of process start and stop other than polling via ActivityManager?
MidnightJava said:
I'm an experienced developer but new to Android development. I have an app that runs some native binaries, and I provide a status indicator to show when the native process is running and when it's not. Currently I poll the device to figure this out, using the ActivityManager API to determine if specific processes are running or not.
I'm hoping there is some way to register a listener on process state changes, so I can get notified when my process starts or stops. I looked through the API, and there doesn't seem to be such a thing. Does anyone know how I can keep track of process start and stop other than polling via ActivityManager?
Click to expand...
Click to collapse
Afaik there's no way to accomplish that other than your way or being system/root app. See this similar question here for reference.
Can you show how you start the process?
EmptinessFiller said:
Can you show how you start the process?
Click to expand...
Click to collapse
Sure. Here's the class that manages starting, stopping, and statusing (running or not) the binary executable. In this case, it's the omniNames service of the omni ORB (CORBA broker).
Code:
public class RHManager {
private TimerTask task = new TimerTask() {
@Override
public void run() {
if (RHManager.this.listener != null) {
listener.running(isOmniNamesRunning());
}
}
};
private IStatusListener listener;
public RHManager() {
}
public void startOmniNames() {
final Exec exec = new Exec();
final String[] args = new String[]
{RhMgrConstants.INSTALL_LOCATION_OMNI_NAMES_SCRIPTS + "/" + RhMgrConstants.OMNI_NAMES_SCRIPT_FILE,
"start"};
final String[] env = new String[] {"LD_LIBRARY_PATH=/sdcard/data/com.axiosengineering.rhmanager/omniORB/lib"};
Thread t = new Thread() {
public void run() {
try {
int res = exec.doExec(args, env);
logMsg("omniNames start return code " + res);
} catch (IOException e) {
logMsg("Failed to start omniNames");
e.printStackTrace();
}
String std = exec.getOutResult();
logMsg("omniNames start: std out==> " + std );
String err = exec.getErrResult();
logMsg("omniNames start: err out==> " + err );
};
};
t.start();
logMsg("omniNames started");
}
private boolean isOmniNamesRunning() {
String pid_s = getOmniNamesPid();
Integer pid = null;
if (pid_s != null) {
try {
pid = Integer.parseInt(pid_s);
} catch (NumberFormatException e) {
return false;
}
}
if (pid != null) {
RunningAppProcessInfo activityMgr = new ActivityManager.RunningAppProcessInfo("omniNames", pid, null);
return activityMgr.processName != null ;
}
return false;
}
public void stopOmniNames() {
String pid = getOmniNamesPid();
android.os.Process.killProcess(Integer.parseInt(pid));
android.os.Process.sendSignal(Integer.parseInt(pid), android.os.Process.SIGNAL_KILL);
}
private String getOmniNamesPid() {
Exec exec = new Exec();
final String[] args = new String[]
{RhMgrConstants.INSTALL_LOCATION_OMNI_NAMES_SCRIPTS + "/" + RhMgrConstants.OMNI_NAMES_SCRIPT_FILE,
"pid"};
String pid = "";
try {
int res = exec.doExec(args, null);
logMsg("oniNames pid return code: " + res);
} catch (IOException e) {
logMsg("Failed to start omniNames");
e.printStackTrace();
return pid;
}
String std = exec.getOutResult();
logMsg("omniNames pid: std out ==> " + std);
String err = exec.getErrResult();
logMsg("omniNames pid: err out ==> " + err);
String[] parts = std.split("\\s+");
if (parts.length >= 2) {
pid = parts[1];
}
return pid;
}
//monitor omniNames status and report status periodically to an IStatusListener
public void startMonitorProcess(IStatusListener listener, String string) {
this.listener = listener;
Timer t = new Timer();
t.schedule(task, 0, 1000);
}
private void logMsg(String msg) {
if (RhMgrConstants.DEBUG) {
System.err.println(msg);
}
}
}
Here's the Exec class that handles invocation of Runtime#exec(), consumes std and err out, and reports those and process return status to the caller.
Code:
public class Exec {
private String outResult;
private String errResult;
private Process process;
private boolean failed = false;
StreamReader outReader;
StreamReader errReader;
public int doExec(String[] cmd, String[] envp) throws IOException{
Timer t = null;
try {
process = Runtime.getRuntime().exec(cmd, envp);
outReader = new StreamReader(process.getInputStream());
outReader.setPriority(10);
errReader = new StreamReader(process.getErrorStream());
outReader.start();
errReader.start();
t = new Timer();
t.schedule(task, 10000);
int status = process.waitFor();
outReader.join();
errReader.join();
StringWriter outWriter = outReader.getResult();
outResult = outWriter.toString();
outWriter.close();
StringWriter errWriter = errReader.getResult();
errResult = errWriter.toString();
errWriter.close();
return (failed ? -1: status);
} catch (InterruptedException e) {
return -1;
} finally {
if (t != null) {
t.cancel();
}
}
}
public int doExec(String[] cmd) throws IOException{
return doExec(cmd, null);
}
public String getOutResult(){
return outResult;
}
public String getErrResult(){
return errResult;
}
private static class StreamReader extends Thread {
private InputStream is;
private StringWriter sw;
StreamReader(InputStream is) {
this.is = is;
sw = new StringWriter(30000);
}
public void run() {
try {
int c;
while ((c = is.read()) != -1){
sw.write(c);
}
}
catch (IOException e) { ; }
}
StringWriter getResult() {
try {
is.close();
} catch (IOException e) {
System.err.println("Unable to close input stream in StreamReader");
}
return sw;
}
}
private TimerTask task = new TimerTask() {
@Override
public void run() {
failed = true;
process.destroy();
}
};
}
Here's the script that startOminNames() invokes. It's the shell script installed with omniORB with functions other than start and get_pid removed, since those are handled by Android classes. You can invoke any executable in place of the script, or wrap your executable in a script.
Code:
#
# omniNames init file for starting up the OMNI Naming service
#
# chkconfig: - 20 80
# description: Starts and stops the OMNI Naming service
#
exec="/sdcard/data/com.axiosengineering.rhmanager/omniORB/bin/omniNames"
prog="omniNames"
logdir="/sdcard/data/com.axiosengineering.rhmanager/omniORB/logs"
logfile="/sdcard/data/com.axiosengineering.rhmanager/omniORB/logs/omninames-localhost.err.log"
options=" -start -always -logdir $logdir -errlog $logfile"
start() {
#[ -x $exec ] || exit 5
echo -n $"Starting $prog: "
$exec $options
}
get_pid() {
ps | grep omniNames
}
case "$1" in
start)
start && exit 0
$1
;;
pid)
get_pid
;;
*)
echo $"Usage: $0 {start|stop|status|restart|condrestart|try-restart|reload|force-reload}"
exit 2
esac
exit $?
And here's the IStatusListener interface
Code:
public interface IStatusListener {
public void running(boolean running);
}
Runtime.exec() has some pitfalls. See this helpful Runtime.exec tutorial for a nice explanation.
And you may also want to check out this post on loading native binaries in Android.
hello i have a problems with app
result
W/System.errīš com.google.gson.JsonSyntaxException: java.lang.IllegalStateException: Expected an int but was BOOLEAN at line 1 column 856
code:
private Boolean getCourseInfo() {
CourseSyncTask cs = new CourseSyncTask(mUrl, token, siteInfo.getId());
publishProgress(context.getString(R.string.login_prog_sync_course));
Boolean usrCourseSyncStatus = cs.syncUserCourses();
if (!usrCourseSyncStatus) {
publishProgress(cs.getError());
publishProgress("\n"
+ context.getString(R.string.login_prog_sync_failed));
}
return usrCourseSyncStatus;
}
////////////////////////////////////////////////////////////
public class CourseSyncTask {
String mUrl;
String token;
long siteid;
String error;
/**
*
* @param mUrl
* @param token
* @param siteid
*
*/
public CourseSyncTask(String mUrl, String token, long siteid) {
this.mUrl = mUrl;
this.token = token;
this.siteid = siteid;
}
/**
* Sync all the courses in the current site.
*
* @return syncStatus
*
*/
public Boolean syncAllCourses() {
MoodleRestCourse mrc = new MoodleRestCourse(mUrl, token);
ArrayList<MoodleCourse> mCourses = mrc.getAllCourses();
/** Error checking **/
// Some network or encoding issue.
if (mCourses.size() == 0) {
error = "Network issue!";
return false;
}
// Moodle exception
if (mCourses.size() == 1 && mCourses.get(0).getCourseid() == 0) {
error = "Moodle Exception: User don't have permissions!";
return false;
}
// Add siteid to all courses and update
MoodleCourse course = new MoodleCourse();
List<MoodleCourse> dbCourses;
for (int i = 0; i < mCourses.size(); i++) {
course = mCourses.get(i);
course.setSiteid(siteid);
// Update or save in database
dbCourses = MoodleCourse.find(MoodleCourse.class,
"courseid = ? and siteid = ?", course.getCourseid() + "",
course.getSiteid() + "");
if (dbCourses != null && dbCourses.size() > 0) {
// Set app specific fields explicitly
course.setId(dbCourses.get(0).getId());
course.setIsUserCourse(dbCourses.get(0).getIsUserCourse());
course.setIsFavCourse(dbCourses.get(0).getIsFavCourse());
}
course.save();
}
return true;
}
/**
* Sync all courses of logged in user in the current site.
*
* @return syncStatus
*/
public Boolean syncUserCourses() {
// Get userid
MoodleSiteInfo site = MoodleSiteInfo.findById(MoodleSiteInfo.class,
siteid);
if (site == null)
return false;
int userid = site.getUserid();
MoodleRestCourse mrc = new MoodleRestCourse(mUrl, token);
ArrayList<MoodleCourse> mCourses = mrc.getEnrolledCourses(userid + "");
/** Error checking **/
// Some network or encoding issue.
if (mCourses == null)
return false;
// Some network or encoding issue.
if (mCourses.size() == 0)
return false;
// Moodle exception
if (mCourses.size() == 1 && mCourses.get(0).getCourseid() == 0)
return false;
// Add siteid and isUserCourse to all courses and update
MoodleCourse course = new MoodleCourse();
List<MoodleCourse> dbCourses;
for (int i = 0; i < mCourses.size(); i++) {
course = mCourses.get(i);
course.setSiteid(siteid);
course.setIsUserCourse(true);
// Update or save in database
dbCourses = MoodleCourse.find(MoodleCourse.class,
"courseid = ? and siteid = ?", course.getCourseid() + "",
course.getSiteid() + "");
if (dbCourses.size() > 0) {
// Set app specific fields explicitly
course.setId(dbCourses.get(0).getId());
course.setIsFavCourse(dbCourses.get(0).getIsFavCourse());
}
course.save();
}
return true;
}
/**
* Error message from the last failed sync operation.
*
* @return error
*
*/
public String getError() {
return error;
}
}
////////////////////////////////////////////
public class MoodleRestCourse {
private final String DEBUG_TAG = "MoodleRestCourses";
private String mUrl;
private String token;
public MoodleRestCourse(String mUrl, String token) {
this.mUrl = mUrl;
this.token = token;
}
public ArrayList<MoodleCourse> getAllCourses() {
ArrayList<MoodleCourse> mCourses = new ArrayList<MoodleCourse>();
String format = MoodleRestOption.RESPONSE_FORMAT;
String function = MoodleRestOption.FUNCTION_GET_ALL_COURSES;
try {
// Adding all parameters.
String params = "" + URLEncoder.encode("", "UTF-8");
// Build a REST call url to make a call.
String restUrl = mUrl + "/webservice/rest/server.php" + "?wstoken="
+ token + "&wsfunction=" + function
+ "&moodlewsrestformat=" + format;
// Fetch content now.
MoodleRestCall mrc = new MoodleRestCall();
Reader reader = mrc.fetchContent(restUrl, params);
GsonExclude ex = new GsonExclude();
Gson gson = new GsonBuilder()
.addDeserializationExclusionStrategy(ex)
.addSerializationExclusionStrategy(ex).create();
mCourses = gson.fromJson(reader,
new TypeToken<List<MoodleCourse>>() {
}.getType());
reader.close();
} catch (Exception e) {
Log.d(DEBUG_TAG, "URL encoding failed");
e.printStackTrace();
}
return mCourses;
}
public ArrayList<MoodleCourse> getEnrolledCourses(String userId) {
ArrayList<MoodleCourse> mCourses = new ArrayList<MoodleCourse>();
String format = MoodleRestOption.RESPONSE_FORMAT;
String function = MoodleRestOption.FUNCTION_GET_ENROLLED_COURSES;
try {
// Adding all parameters.
String params = "&" + URLEncoder.encode("userid", "UTF-8") + "="
+ userId;
// Build a REST call url to make a call.
String restUrl = mUrl + "/webservice/rest/server.php" + "?wstoken="
+ token + "&wsfunction=" + function
+ "&moodlewsrestformat=" + format;
// Fetch content now.
MoodleRestCall mrc = new MoodleRestCall();
Reader reader = mrc.fetchContent(restUrl, params);
GsonExclude ex = new GsonExclude();
Gson gson = new GsonBuilder()
.addDeserializationExclusionStrategy(ex)
.addSerializationExclusionStrategy(ex).create();
mCourses = gson.fromJson(reader,
new TypeToken<List<MoodleCourse>>() {
}.getType());
reader.close();
} catch (Exception e) {
Log.d(DEBUG_TAG, "URL encoding failed");
e.printStackTrace();
}
return mCourses;
}
}