/**
* @param sourceFile File to read from
* @return List of String objects with the shas
*/
public static FileRequestFileContent readRequestFile(final File sourceFile) {
if (!sourceFile.isFile() || !(sourceFile.length() > 0)) {
return null;
}
Document d = null;
try {
d = XMLTools.parseXmlFile(sourceFile.getPath());
} catch (final Throwable t) {
logger.log(Level.SEVERE, "Exception in readRequestFile, during XML parsing", t);
return null;
}
if (d == null) {
logger.log(Level.SEVERE, "Could'nt parse the request file");
return null;
}
final Element rootNode = d.getDocumentElement();
if (rootNode.getTagName().equals(TAG_FrostFileRequestFile) == false) {
logger.severe(
"Error: xml request file does not contain the root tag '"
+ TAG_FrostFileRequestFile
+ "'");
return null;
}
final String timeStampStr = XMLTools.getChildElementsTextValue(rootNode, TAG_timestamp);
if (timeStampStr == null) {
logger.severe("Error: xml file does not contain the tag '" + TAG_timestamp + "'");
return null;
}
final long timestamp = Long.parseLong(timeStampStr);
final List<Element> nodelist = XMLTools.getChildElementsByTagName(rootNode, TAG_shaList);
if (nodelist.size() != 1) {
logger.severe("Error: xml request files must contain only one element '" + TAG_shaList + "'");
return null;
}
final Element rootShaNode = nodelist.get(0);
final List<String> shaList = new LinkedList<String>();
final List<Element> xmlKeys = XMLTools.getChildElementsByTagName(rootShaNode, TAG_sha);
for (final Element el : xmlKeys) {
final Text txtname = (Text) el.getFirstChild();
if (txtname == null) {
continue;
}
final String sha = txtname.getData();
shaList.add(sha);
}
final FileRequestFileContent content = new FileRequestFileContent(timestamp, shaList);
return content;
}
@Before
public void setUp() {
p = new ArgsParser(); // for save
x = new XMLTools();
q = new ArgsParser(); // for load xml file made from save
q = x.load("./src/test/java/edu/jsu/mcis/xmlFiles/testSave.xml");
n = new ArgsParser(); // for load xml file made NOT from save
n = x.load("./src/test/java/edu/jsu/mcis/xmlFiles/testLoadFile.xml");
}
/**
* ** Gets a virtual DBRecord from the specified remote service ** @param servReq The remote web
* service ** @return The virtual DBRecord (cannot be saved or reloaded)
*/
@SuppressWarnings("unchecked")
public gDBR getVirtualDBRecord(final ServiceRequest servReq) throws DBException {
String CMD_dbget = DBFactory.CMD_dbget;
String TAG_Response = servReq.getTagResponse();
String TAG_Record = DBFactory.TAG_Record;
String ATTR_command = servReq.getAttrCommand();
String ATTR_result = servReq.getAttrResult();
/* send request / get response */
Document xmlDoc = null;
try {
xmlDoc =
servReq.sendRequest(
CMD_dbget,
new ServiceRequest.RequestBody() {
public StringBuffer appendRequestBody(StringBuffer sb, int indent) {
return DBRecordKey.this.toRequestXML(sb, indent);
}
});
} catch (IOException ioe) {
Print.logException("Error", ioe);
throw new DBException("Request read error", ioe);
}
/* parse 'GTSResponse' */
Element gtsResponse = xmlDoc.getDocumentElement();
if (!gtsResponse.getTagName().equalsIgnoreCase(TAG_Response)) {
Print.logError("Request XML does not start with '%s'", TAG_Response);
throw new DBException("Response XML does not begin eith '" + TAG_Response + "'");
}
/* request command/argument */
String cmd = StringTools.trim(gtsResponse.getAttribute(ATTR_command));
String result = StringTools.trim(gtsResponse.getAttribute(ATTR_result));
if (StringTools.isBlank(result)) {
result = StringTools.trim(gtsResponse.getAttribute("type"));
}
if (!result.equalsIgnoreCase("success")) {
Print.logError("Response indicates failure");
throw new DBException("Response does not indicate 'success'");
}
/* Record */
NodeList rcdList = XMLTools.getChildElements(gtsResponse, TAG_Record);
if (rcdList.getLength() <= 0) {
Print.logError("No 'Record' tags");
throw new DBException("GTSResponse does not contain any 'Record' tags");
}
Element rcdElem = (Element) rcdList.item(0);
/* return DBRecord */
gDBR dbr = (gDBR) DBFactory.parseXML_DBRecord(rcdElem);
dbr.setVirtual(true);
return dbr;
}
public static String XmlFilter(boolean isSoapReq, String value) {
if ((value == null)
|| value.equals("")) { // do not use StringTools.isBlank (spaces are significant)
return "";
} else if (StringTools.isAlphaNumeric(value, XML_CHARS)) {
return value; // return all significant spaces
} else {
String v = StringTools.replace(value, "\n", "\\n");
return XMLTools.CDATA(isSoapReq, v);
}
}
@Test
public void testLoadExceptionWithFileNotXMLExtension() {
boolean exception = false;
try {
x.load("thisfiledoesnotexist");
} catch (XMLException e) {
exception = true;
} finally {
assertTrue(exception);
}
}
/**
* @param chkKeys List of String objects with the shas
* @param targetFile target file
* @return true if write was successful
*/
public static boolean writeRequestFile(
final FileRequestFileContent content, final File targetFile) {
final Document doc = XMLTools.createDomDocument();
if (doc == null) {
logger.severe("Error - writeRequestFile: factory could'nt create XML Document.");
return false;
}
final Element rootElement = doc.createElement(TAG_FrostFileRequestFile);
doc.appendChild(rootElement);
final Element timeStampElement = doc.createElement(TAG_timestamp);
final Text timeStampText = doc.createTextNode(Long.toString(content.getTimestamp()));
timeStampElement.appendChild(timeStampText);
rootElement.appendChild(timeStampElement);
final Element rootChkElement = doc.createElement(TAG_shaList);
rootElement.appendChild(rootChkElement);
for (final String chkKey : content.getShaStrings()) {
final Element nameElement = doc.createElement(TAG_sha);
final Text text = doc.createTextNode(chkKey);
nameElement.appendChild(text);
rootChkElement.appendChild(nameElement);
}
boolean writeOK = false;
try {
writeOK = XMLTools.writeXmlFile(doc, targetFile);
} catch (final Throwable t) {
logger.log(Level.SEVERE, "Exception in writeRequestFile/writeXmlFile", t);
}
return writeOK;
}
/** ** Encodes this DBRecordKey into XML for "GTSRequest' purposes */
private StringBuffer toRequestXML(StringBuffer sb, int indent) {
boolean isSoapReq = false;
if (sb == null) {
sb = new StringBuffer();
}
DBRecordKey<gDBR> recKey = this;
String tableName = recKey.getTableName();
DBField fld[] = recKey.getKeyFields(); // KEY fields
DBFieldValues fldVals = recKey.getFieldValues();
String PFX1 = XMLTools.PREFIX(isSoapReq, indent);
sb.append(PFX1);
sb.append(
XMLTools.startTAG(
isSoapReq,
DBFactory.TAG_Record,
XMLTools.ATTR(DBFactory.ATTR_table, tableName),
false,
true));
DBFactory.writeXML_DBFields(sb, 2 * indent, fld, fldVals, isSoapReq);
sb.append(PFX1);
sb.append(XMLTools.endTAG(isSoapReq, DBFactory.TAG_Record, true));
return sb;
}
/**
* ** Encodes this DBRecordKey into XML ** @param sb The StringBuffer to which the DBRecord XML is
* writen ** @param indent The number of spaces to indent ** @param sequence An optional record
* sequence number ** @param soapXML True for SOAP XML ** @return The StringBuffer
*/
public StringBuffer toXML(StringBuffer sb, int indent, int sequence, boolean soapXML) {
if (sb == null) {
sb = new StringBuffer();
}
String prefix = StringTools.replicateString(" ", indent);
DBRecordKey<gDBR> recKey = this;
String tableName = recKey.getTableName();
DBField fld[] = recKey.getKeyFields(); // KEY fields
DBFieldValues fldVals = recKey.getFieldValues();
String PFX1 = XMLTools.PREFIX(soapXML, indent);
sb.append(PFX1);
sb.append(
XMLTools.startTAG(
soapXML,
DBFactory.TAG_RecordKey,
XMLTools.ATTR(DBFactory.ATTR_table, tableName)
+ ((sequence > 0) ? XMLTools.ATTR(DBFactory.ATTR_sequence, sequence) : ""),
false,
true));
DBFactory.writeXML_DBFields(sb, 2 * indent, fld, fldVals, soapXML);
sb.append(PFX1);
sb.append(XMLTools.endTAG(soapXML, DBFactory.TAG_RecordKey, true));
return sb;
}
@Test
public void testSave() {
List<String> values = new ArrayList<String>();
values.add("one");
values.add("two");
values.add("three");
String[] mutex = new String[] {"testArg", "testArg2"};
p.setProgramName("Test");
p.setProgramDescription("Test Program");
p.addArg("one", Arg.DataType.STRING, "");
p.getArg("one").setRestrictedValues(values);
p.addArg("two", Arg.DataType.INTEGER, "This is a test.");
p.addNamedArg("testArg", Arg.DataType.STRING, "", "test1", 't');
p.addNamedArg("testArg2", Arg.DataType.STRING, "", "three");
p.getArg("testArg2").setRestrictedValues(values);
p.addNamedArg("testArg3", Arg.DataType.STRING, "NamedDescrip", "one", 'c');
p.getArg("testArg3").setRestrictedValues(values);
p.addMutualExclusion(mutex);
p.setNamedArgToRequired("testArg3");
x.save(p, "./build/tmp/testSave.xml");
// read in xml file as string and test against known string
String actualXMLOutput = "";
String expectedXLMOutput =
"<?xml version=\"1.0\" encoding=\"UTF-8\" standalone=\"no\"?><arguments> <programname>Test</programname> <programdescription>Test Program</programdescription> <mutualexclusion>testArg, testArg2</mutualexclusion><positional> <position>1</position> <name>one</name> <type>string</type> <restrictedvalues>one, two, three</restrictedvalues></positional><positional> <position>2</position> <name>two</name> <type>integer</type> <description>This is a test.</description></positional><named> <name>testArg</name> <type>string</type> <shortname>t</shortname> <default>test1</default></named><named> <name>testArg2</name> <type>string</type> <restrictedvalues>one, two, three</restrictedvalues> <default>three</default></named><named> <name>testArg3</name> <type>string</type> <restrictedvalues>one, two, three</restrictedvalues> <description>NamedDescrip</description> <shortname>c</shortname> <required>true</required> <default>one</default></named></arguments>";
String currentLine = null;
try {
FileReader r = new FileReader("./build/tmp/testSave.xml");
BufferedReader b = new BufferedReader(r);
while ((currentLine = b.readLine()) != null) actualXMLOutput += currentLine;
b.close();
} catch (Exception e) {
e.printStackTrace();
}
assertEquals(expectedXLMOutput, actualXMLOutput);
}
/**
* ** Returns a ReverseGeocode instance containing address information ** @param gp The GeoPoint
* ** @return The ReverseGeocode instance
*/
private ReverseGeocode getAddressReverseGeocode(GeoPoint gp, String localeStr) {
/* URL */
String url = this.getAddressReverseGeocodeURL(gp);
Print.logInfo("Address URL: " + url);
/* create XML document */
Document xmlDoc = GetXMLDocument(url);
if (xmlDoc == null) {
return null;
}
/* create ReverseGeocode response */
Element reversegeocode = xmlDoc.getDocumentElement();
if (!reversegeocode.getTagName().equalsIgnoreCase(TAG_reversegeocode)) {
return null;
}
/* init */
String address_val = null; // null address
String house_val = null; // house number
String road_val = null; // street name
String city_val = null; // city name
String county_val = null; // county name
String state_val = null; // state/province
String postcode_val = null; // postal code
String country_name_val = null; // country name
String country_code_val = null; // country code
// full address
NodeList resultList = XMLTools.getChildElements(reversegeocode, TAG_result);
for (int r = 0; r < resultList.getLength(); r++) {
Element result = (Element) resultList.item(r);
// String osmType = XMLTools.getAttribute(result, ATTR_osm_type, null, false);
address_val = XMLTools.getNodeText(result, " ", false);
break; // only the first element
}
// address components
NodeList addresspartsList = XMLTools.getChildElements(reversegeocode, TAG_addressparts);
for (int a = 0; (a < addresspartsList.getLength()); a++) {
Element addressparts = (Element) addresspartsList.item(a);
NodeList addresspartsChildren = addressparts.getChildNodes();
for (int ac = 0; ac < addresspartsChildren.getLength(); ac++) {
Node child = addresspartsChildren.item(ac);
if (!(child instanceof Element)) {
continue;
}
Element elem = (Element) child;
String elemName = elem.getNodeName();
if (elemName.equalsIgnoreCase(TAG_house)) {
house_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_tram)) {
// ignore
} else if (elemName.equalsIgnoreCase(TAG_road)) {
road_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_residential)) {
// ignore
} else if (elemName.equalsIgnoreCase(TAG_village)) {
// ignore
} else if (elemName.equalsIgnoreCase(TAG_town)) {
if (StringTools.isBlank(city_val)) {
city_val = XMLTools.getNodeText(elem, " ", false);
}
} else if (elemName.equalsIgnoreCase(TAG_city)) {
city_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_county)) {
county_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_postcode)) {
postcode_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_state)) {
state_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_country)) {
country_name_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_country_code)) {
country_code_val = StringTools.trim(XMLTools.getNodeText(elem, " ", false)).toUpperCase();
} else {
// elemName unrecognized
}
}
break; // only the first element
}
/* populate ReverseGeocode instance */
ReverseGeocode rg = new ReverseGeocode();
StringBuffer addr = new StringBuffer();
// house number /road
if (!StringTools.isBlank(house_val)) {
addr.append(house_val);
if (!StringTools.isBlank(road_val)) {
addr.append(" ");
addr.append(road_val);
rg.setStreetAddress(house_val + " " + road_val);
} else {
rg.setStreetAddress(house_val);
}
} else if (!StringTools.isBlank(road_val)) {
addr.append(road_val);
rg.setStreetAddress(road_val);
}
// city/county
if (!StringTools.isBlank(city_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(city_val);
rg.setCity(city_val);
}
if (!StringTools.isBlank(county_val)) {
if (StringTools.isBlank(city_val)) {
// "city" not provided, at least include the "county"
if (addr.length() > 0) {
addr.append(", ");
}
addr.append("[").append(county_val).append("]");
}
// rg.setCounty(county_val);
}
// state/province
if (!StringTools.isBlank(state_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(state_val);
rg.setStateProvince(state_val);
if (!StringTools.isBlank(postcode_val)) {
addr.append(" ").append(postcode_val);
rg.setPostalCode(postcode_val);
}
} else {
if (!StringTools.isBlank(postcode_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(postcode_val);
rg.setPostalCode(postcode_val);
}
}
// country
if (!StringTools.isBlank(country_code_val)) {
if (country_code_val.equalsIgnoreCase("US")) {
// if (addr.length() > 0) { addr.append(", "); }
// addr.append("USA");
} else if (!StringTools.isBlank(country_name_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(country_name_val);
} else {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(country_code_val);
}
rg.setCountryCode(country_code_val);
}
// full address
rg.setFullAddress(addr.toString());
return rg;
}
// http://code.google.com/apis/maps/documentation/geocoding/index.html
public GeoPoint getGeocode(String address, String country) {
/* URL */
String url = this.getGeoPointGeocodeURL(address, country);
Print.logDebug("Google GC URL: " + url);
/* create XML document */
Document xmlDoc = GetXMLDocument(url, this.getGeocodeTimeout());
if (xmlDoc == null) {
return null;
}
/* vars */
String errCode = null;
GeoPoint geoPoint = null;
/* parse "xml" */
Element kml = xmlDoc.getDocumentElement();
if (kml.getTagName().equalsIgnoreCase(TAG_kml)) {
NodeList ResponseList = XMLTools.getChildElements(kml, TAG_Response);
for (int g = 0; (g < ResponseList.getLength()); g++) {
Element response = (Element) ResponseList.item(g);
NodeList responseNodes = response.getChildNodes();
for (int n = 0; n < responseNodes.getLength(); n++) {
Node responseNode = responseNodes.item(n);
if (!(responseNode instanceof Element)) {
continue;
}
Element responseElem = (Element) responseNode;
String responseNodeName = responseElem.getNodeName();
if (responseNodeName.equalsIgnoreCase(TAG_name)) {
// <name>1600 Amphitheatre Parkway, Mountain View, CA</name>
} else if (responseNodeName.equalsIgnoreCase(TAG_Status)) {
// <Status> ... </Status>
NodeList statusNodes = responseElem.getChildNodes();
for (int st = 0; st < statusNodes.getLength(); st++) {
Node statusNode = statusNodes.item(st);
if (!(statusNode instanceof Element)) {
continue;
}
Element statusElem = (Element) statusNode;
String statusNodeName = statusElem.getNodeName();
if (statusNodeName.equalsIgnoreCase(TAG_code)) {
errCode = StringTools.trim(GoogleGeocodeV2.GetNodeText(statusElem)); // expect "200"
break; // we only care about the 'code'
}
}
} else if (responseNodeName.equalsIgnoreCase(TAG_Placemark)) {
// <Placemark> ... </Placemark>
String id = responseElem.getAttribute(ATTR_id);
if ((id != null) && id.equals("p1")) {
NodeList placemarkNodes = responseElem.getChildNodes();
for (int pm = 0; (geoPoint == null) && (pm < placemarkNodes.getLength()); pm++) {
Node placemarkNode = placemarkNodes.item(pm);
if (!(placemarkNode instanceof Element)) {
continue;
}
Element placemarkElem = (Element) placemarkNode;
String placemarkNodeName = placemarkElem.getNodeName();
if (placemarkNodeName.equalsIgnoreCase(TAG_Point)) {
NodeList pointNodes = placemarkElem.getChildNodes();
for (int ptn = 0; (geoPoint == null) && (ptn < pointNodes.getLength()); ptn++) {
Node pointNode = pointNodes.item(ptn);
if (!(pointNode instanceof Element)) {
continue;
}
Element pointElem = (Element) pointNode;
String pointNodeName = pointElem.getNodeName();
if (pointNodeName.equalsIgnoreCase(TAG_coordinates)) {
String ll[] = StringTools.split(GoogleGeocodeV2.GetNodeText(pointElem), ',');
if (ll.length >= 2) {
double lon = StringTools.parseDouble(ll[0], 0.0); // longitude is first
double lat = StringTools.parseDouble(ll[1], 0.0);
if (GeoPoint.isValid(lat, lon)) {
geoPoint = new GeoPoint(lat, lon);
break; // we only care about the 'GeoPoint'
}
}
}
}
}
}
} else {
// Print.logInfo("Skipping Placemark ID = %s", id);
}
}
}
}
}
/* create address */
if (geoPoint != null) {
// GeoPoint found
return geoPoint;
}
/* check for Google reverse-geocode limit exceeded */
if ((errCode != null) && errCode.equals("620")) {
Print.logError("!!!! Google Reverse-Geocode Limit Exceeded [Error 620] !!!!");
}
/* no reverse-geocode available */
return null;
}
/* return reverse-geocode using nearest address */
public ReverseGeocode getAddressReverseGeocode(GeoPoint gp, String localeStr, boolean cache) {
/* check for failover mode */
if (this.isReverseGeocodeFailoverMode()) {
ReverseGeocodeProvider frgp = this.getFailoverReverseGeocodeProvider();
return frgp.getReverseGeocode(gp, localeStr, cache);
}
/* URL */
String url = this.getAddressReverseGeocodeURL(gp, localeStr);
Print.logDebug("Google RG URL: " + url);
// byte xmlBytes[] = HTMLTools.readPage(url);
/* create XML document */
Document xmlDoc = GetXMLDocument(url, this.getReverseGeocodeTimeout());
if (xmlDoc == null) {
return null;
}
/* vars */
String errCode = null;
String address = null;
/* parse "xml" */
Element kml = xmlDoc.getDocumentElement();
if (kml.getTagName().equalsIgnoreCase(TAG_kml)) {
NodeList ResponseList = XMLTools.getChildElements(kml, TAG_Response);
for (int g = 0; (g < ResponseList.getLength()); g++) {
Element response = (Element) ResponseList.item(g);
NodeList responseNodes = response.getChildNodes();
for (int n = 0; n < responseNodes.getLength(); n++) {
Node responseNode = responseNodes.item(n);
if (!(responseNode instanceof Element)) {
continue;
}
Element responseElem = (Element) responseNode;
String responseNodeName = responseElem.getNodeName();
if (responseNodeName.equalsIgnoreCase(TAG_name)) {
// <name>40.479581,-117.773438</name>
} else if (responseNodeName.equalsIgnoreCase(TAG_Status)) {
// <Status> ... </Status>
NodeList statusNodes = responseElem.getChildNodes();
for (int st = 0; st < statusNodes.getLength(); st++) {
Node statusNode = statusNodes.item(st);
if (!(statusNode instanceof Element)) {
continue;
}
Element statusElem = (Element) statusNode;
String statusNodeName = statusElem.getNodeName();
if (statusNodeName.equalsIgnoreCase(TAG_code)) {
errCode = StringTools.trim(GoogleGeocodeV2.GetNodeText(statusElem)); // expect "200"
break; // we only care about the 'code'
}
}
} else if (responseNodeName.equalsIgnoreCase(TAG_Placemark)) {
// <Placemark> ... </Placemark>
String id = responseElem.getAttribute(ATTR_id);
if ((id != null) && id.equals("p1")) {
NodeList placemarkNodes = responseElem.getChildNodes();
for (int pm = 0; pm < placemarkNodes.getLength(); pm++) {
Node placemarkNode = placemarkNodes.item(pm);
if (!(placemarkNode instanceof Element)) {
continue;
}
Element placemarkElem = (Element) placemarkNode;
String placemarkNodeName = placemarkElem.getNodeName();
if (placemarkNodeName.equalsIgnoreCase(TAG_address)) {
address = GoogleGeocodeV2.GetNodeText(placemarkElem);
break; // we only care about the 'address'
}
}
} else {
// Print.logInfo("Skipping Placemark ID = %s", id);
}
}
}
}
}
/* create address */
if (FAILOVER_DEBUG) {
errCode = "620";
} else if (!StringTools.isBlank(address)) {
// address found
ReverseGeocode rg = new ReverseGeocode();
rg.setFullAddress(address);
return rg;
}
/* check for Google reverse-geocode limit exceeded */
if ((errCode != null) && errCode.equals("620")) {
Print.logError("!!!! Google Reverse-Geocode Limit Exceeded [Error 620] !!!!");
if (this.hasFailoverReverseGeocodeProvider()) {
this.startReverseGeocodeFailoverMode();
ReverseGeocodeProvider frgp = this.getFailoverReverseGeocodeProvider();
Print.logWarn("Failing over to '" + frgp.getName() + "'");
return frgp.getReverseGeocode(gp, localeStr, cache);
}
}
/* no reverse-geocode available */
return null;
}
private int _writeXML(PrintWriter out, int level, ReportData rd, boolean urlOnly)
throws ReportException {
boolean isSoapRequest = rd.isSoapRequest();
RequestProperties reqState = rd.getRequestProperties();
PrivateLabel privLabel = rd.getPrivateLabel();
I18N i18n = privLabel.getI18N(ReportTable.class);
String PFX1 = XMLTools.PREFIX(isSoapRequest, level * ReportTable.INDENT);
String PFX2 = XMLTools.PREFIX(isSoapRequest, (level + 1) * ReportTable.INDENT);
/* begin */
out.print(PFX1);
out.print(
XMLTools.startTAG(
isSoapRequest,
"Report", // TAG_Report
XMLTools.ATTR("name", rd.getReportName())
+ // ATTR_name
XMLTools.ATTR("type", rd.getReportType()), // ATTR_type
false,
true));
/* constraints */
ReportConstraints rc = rd.getReportConstraints();
String dtFmt = DateTime.DEFAULT_DATE_FORMAT + "," + DateTime.DEFAULT_TIME_FORMAT;
TimeZone tzone = rd.getTimeZone();
String tzStr = rd.getTimeZoneString();
long tmBeg = rc.getTimeStart();
long tmEnd = rc.getTimeEnd();
DateTime dtStr = new DateTime(tmBeg, tzone);
DateTime dtEnd = new DateTime(tmEnd, tzone);
/* Account */
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "Account", "", false, false)); // TAG_Account
out.print(XmlFilter(isSoapRequest, rd.getAccountID()));
out.print(XMLTools.endTAG(isSoapRequest, "Account", true)); // TAG_Account
/* TimeFrom */
out.print(PFX2);
out.print(
XMLTools.startTAG(
isSoapRequest,
"TimeFrom", // TAG_TimeFrom
XMLTools.ATTR("timestamp", String.valueOf(tmBeg))
+ // ATTR_timestamp
XMLTools.ATTR("timezone", tzStr), // ATTR_timezone
false,
false));
out.print((tmBeg > 0L) ? XmlFilter(isSoapRequest, dtStr.format(dtFmt)) : "");
out.print(XMLTools.endTAG(isSoapRequest, "TimeFrom", true)); // TAG_TimeFrom
/* TimeTo */
out.print(PFX2);
out.print(
XMLTools.startTAG(
isSoapRequest,
"TimeTo", // TAG_TimeTo
XMLTools.ATTR("timestamp", String.valueOf(tmEnd))
+ // ATTR_timestamp
XMLTools.ATTR("timezone", tzStr), // ATTR_timezone
false,
false));
out.print((tmEnd > 0L) ? XmlFilter(isSoapRequest, dtEnd.format(dtFmt)) : "");
out.print(XMLTools.endTAG(isSoapRequest, "TimeTo", true)); // TAG_TimeTo
/* ValidGPSRequired */
out.print(PFX2);
out.print(
XMLTools.startTAG(
isSoapRequest, "ValidGPSRequired", "", false, false)); // TAG_ValidGPSRequired
out.print(XmlFilter(isSoapRequest, rc.getValidGPSRequired()));
out.print(XMLTools.endTAG(isSoapRequest, "ValidGPSRequired", true)); // TAG_ValidGPSRequired
/* SelectionLimit */
out.print(PFX2);
out.print(
XMLTools.startTAG(
isSoapRequest,
"SelectionLimit", // TAG_SelectionLimit
XMLTools.ATTR("type", rc.getSelectionLimitType()),
false,
false));
out.print(XmlFilter(isSoapRequest, rc.getSelectionLimit()));
out.print(XMLTools.endTAG(isSoapRequest, "SelectionLimit", true)); // TAG_SelectionLimit
/* Ascending */
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "Ascending", "", false, false)); // TAG_Ascending
out.print(XmlFilter(isSoapRequest, rc.getOrderAscending()));
out.print(XMLTools.endTAG(isSoapRequest, "Ascending", true)); // TAG_Ascending
/* ReportLimit */
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "ReportLimit", "", false, false)); // TAG_ReportLimit
out.print(XmlFilter(isSoapRequest, rc.getReportLimit()));
out.print(XMLTools.endTAG(isSoapRequest, "ReportLimit", true)); // TAG_ReportLimit
/* Where */
if (rc.hasWhere()) {
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "Where", "", false, false)); // TAG_Where
out.print(XmlFilter(isSoapRequest, rc.getWhere()));
out.print(XMLTools.endTAG(isSoapRequest, "Where", true)); // TAG_Where
}
/* RuleSelector */
if (rc.hasRuleSelector()) {
out.print(PFX2);
out.print(
XMLTools.startTAG(isSoapRequest, "RuleSelector", "", false, false)); // TAG_RuleSelector
out.print(XmlFilter(isSoapRequest, rc.getRuleSelector()));
out.print(XMLTools.endTAG(isSoapRequest, "RuleSelector", true)); // TAG_RuleSelector
}
/* Title */
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "Title", "", false, false)); // TAG_Title
out.print(XmlFilter(isSoapRequest, rd.getReportTitle()));
out.print(XMLTools.endTAG(isSoapRequest, "Title", true)); // TAG_Title
/* Subtitle */
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "Subtitle", "", false, false)); // TAG_Subtitle
out.print(XmlFilter(isSoapRequest, rd.getReportSubtitle()));
out.print(XMLTools.endTAG(isSoapRequest, "Subtitle", true)); // TAG_Subtitle
/* URL */
if (urlOnly) {
// Web-URL only
HttpServletRequest request = reqState.getHttpServletRequest();
ReportDeviceList devList = rd.getReportDeviceList();
String deviceID = devList.isDeviceGroup() ? null : devList.getFirstDeviceID();
String groupID = devList.isDeviceGroup() ? devList.getDeviceGroupID() : null;
String baseURL =
privLabel.hasDefaultBaseURL()
? privLabel.getDefaultBaseURL()
: ((request != null) ? request.getRequestURL().toString() : "");
URIArg rptURL =
ReportURL.createReportURL(
baseURL,
false,
rd.getAccountID(),
rd.getUserID(),
"",
deviceID,
groupID,
rc.getTimeStart(),
rc.getTimeEnd(),
rd.getTimeZoneString(),
rd.getReportName(),
rc.getReportLimit(),
rc.getSelectionLimitType().toString(),
ReportPresentation.FORMAT_HTML);
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "URL", "", false, false)); // TAG_URL
out.print(XmlFilter(isSoapRequest, rptURL.toString()));
out.print(XMLTools.endTAG(isSoapRequest, "URL", true)); // TAG_URL
} else {
// Report header/body
this.rptHeader.writeXML(out, level + 1, rd);
this.rptBody.writeXML(out, level + 1, rd);
}
/* Partial */
out.print(PFX2);
out.print(XMLTools.startTAG(isSoapRequest, "Partial", "", false, false)); // TAG_Partial
out.print(XmlFilter(isSoapRequest, this.rptBody.isPartial()));
out.print(XMLTools.endTAG(isSoapRequest, "Partial", true)); // TAG_Partial
/* end of report */
out.print(PFX1);
out.print(XMLTools.endTAG(isSoapRequest, "Report", true)); // TAG_Report
return this.rptBody.getRecordCount();
}
