protected void initFeatureVersions() throws PluginException.InvalidDefinition {
if (definitionMap.containsKey(KEY_PLUGIN_FEATURE_VERSION_MAP)) {
Map<Plugin.Feature, String> map = new HashMap<Plugin.Feature, String>();
Map<String, String> spec =
(Map<String, String>) definitionMap.getMap(KEY_PLUGIN_FEATURE_VERSION_MAP);
log.debug2("features: " + spec);
for (Map.Entry<String, String> ent : spec.entrySet()) {
try {
// Prefix version string with feature name to create separate
// namespace for each feature
String key = ent.getKey();
map.put(Plugin.Feature.valueOf(key), key + "_" + ent.getValue());
} catch (RuntimeException e) {
log.warning(
getPluginName()
+ " set unknown feature: "
+ ent.getKey()
+ " to version "
+ ent.getValue(),
e);
throw new PluginException.InvalidDefinition("Unknown feature: " + ent.getKey(), e);
}
}
featureVersion = map;
} else {
featureVersion = null;
}
}
void setConfig(Configuration config) {
log.debug("config: " + config);
proxyHost = config.get(PARAM_PROXY_HOST);
proxyPort = config.getInt(PARAM_PROXY_PORT, DEFAULT_PROXY_PORT);
if (StringUtil.isNullString(proxyHost) || proxyPort <= 0) {
String http_proxy = System.getenv("http_proxy");
if (!StringUtil.isNullString(http_proxy)) {
try {
HostPortParser hpp = new HostPortParser(http_proxy);
proxyHost = hpp.getHost();
proxyPort = hpp.getPort();
} catch (HostPortParser.InvalidSpec e) {
log.warning("Can't parse http_proxy environment var, ignoring: " + http_proxy + ": " + e);
}
}
}
if (StringUtil.isNullString(proxyHost) || proxyPort <= 0) {
proxyHost = null;
} else {
log.info("Proxying through " + proxyHost + ":" + proxyPort);
}
userAgent = config.get(PARAM_USER_AGENT);
if (StringUtil.isNullString(userAgent)) {
userAgent = null;
} else {
log.debug("Setting User-Agent to " + userAgent);
}
}
public String getDefaultArticleMimeType() {
String ret = definitionMap.getString(KEY_DEFAULT_ARTICLE_MIME_TYPE, null);
log.debug3("DefaultArticleMimeType " + ret);
if (ret == null) {
ret = super.getDefaultArticleMimeType();
log.debug3("DefaultArticleMimeType from super " + ret);
}
return ret;
}
protected PermissionCheckerFactory getPermissionCheckerFactory() {
if (permissionCheckerFact == null) {
String permissionCheckerFactoryClass =
definitionMap.getString(DefinableArchivalUnit.KEY_AU_PERMISSION_CHECKER_FACTORY, null);
if (permissionCheckerFactoryClass != null) {
permissionCheckerFact =
(PermissionCheckerFactory)
newAuxClass(permissionCheckerFactoryClass, PermissionCheckerFactory.class);
log.debug2("Loaded PermissionCheckerFactory: " + permissionCheckerFact);
}
}
return permissionCheckerFact;
}
protected FilterRule constructFilterRule(String contentType) {
String mimeType = HeaderUtil.getMimeTypeFromContentType(contentType);
Object filter_el =
definitionMap.getMapElement(mimeType + DefinableArchivalUnit.SUFFIX_FILTER_RULE);
if (filter_el instanceof String) {
log.debug("Loading filter " + filter_el);
return (FilterRule) newAuxClass((String) filter_el, FilterRule.class);
} else if (filter_el instanceof List) {
if (((List) filter_el).size() > 0) {
return new DefinableFilterRule((List) filter_el);
}
}
return super.constructFilterRule(mimeType);
}
void checkParamAgreement(String key, PrintfContext context) {
List<String> printfList = getElementList(key);
if (printfList == null) {
return;
}
for (String printf : printfList) {
if (StringUtil.isNullString(printf)) {
log.warning("Null printf string in " + key);
continue;
}
PrintfUtil.PrintfData p_data = PrintfUtil.stringToPrintf(printf);
Collection<String> p_args = p_data.getArguments();
for (String arg : p_args) {
ConfigParamDescr descr = findAuConfigDescr(arg);
if (descr == null) {
throw new PluginException.InvalidDefinition(
"Not a declared parameter: " + arg + " in " + printf + " in " + getPluginName());
}
// ensure range and set params used only in legal context
switch (context) {
case Regexp:
case Display:
// everything is legal in a regexp or a display string
break;
case URL:
// NUM_RANGE and SET legal because can enumerate. Can't
// enumerate RANGE
switch (descr.getType()) {
case ConfigParamDescr.TYPE_RANGE:
throw new PluginException.InvalidDefinition(
"Range parameter ("
+ arg
+ ") used in illegal context in "
+ getPluginName()
+ ": "
+ key
+ ": "
+ printf);
default:
}
}
}
}
}
/** If in testing mode FOO, copy values from FOO_override map, if any, to main map */
void processOverrides(TypedEntryMap map) {
String testMode = getTestingMode();
if (StringUtil.isNullString(testMode)) {
return;
}
Object o = map.getMapElement(testMode + DefinableArchivalUnit.SUFFIX_OVERRIDE);
if (o == null) {
return;
}
if (o instanceof Map) {
Map overrideMap = (Map) o;
for (Map.Entry entry : (Set<Map.Entry>) overrideMap.entrySet()) {
String key = (String) entry.getKey();
Object val = entry.getValue();
log.debug(getDefaultPluginName() + ": Overriding " + key + " with " + val);
map.setMapElement(key, val);
}
}
}
public class CrawlRuleTester extends Thread {
protected static Logger log = Logger.getLogger(CrawlRuleTester.class);
/** Proxy host */
public static final String PARAM_PROXY_HOST = Configuration.PREFIX + "crawltest.proxy.host";
/** Proxy port */
public static final String PARAM_PROXY_PORT = Configuration.PREFIX + "crawltest.proxy.port";
public static final int DEFAULT_PROXY_PORT = -1;
/** User-Agent */
public static final String PARAM_USER_AGENT = Configuration.PREFIX + "crawltest.userAgent";
/* Message Types */
public static final int ERROR_MESSAGE = 0;
public static final int WARNING_MESSAGE = 1;
public static final int PLAIN_MESSAGE = 2;
public static final int URL_SUMMARY_MESSAGE = 3;
public static final int TEST_SUMMARY_MESSAGE = 4;
private String m_baseUrl;
private int m_crawlDepth;
private long m_crawlDelay;
private int m_curDepth;
private ArchivalUnit m_au;
private String m_outputFile = null;
private BufferedWriter m_outWriter = null;
private Deadline fetchDeadline = Deadline.in(0);
private boolean useLocalWriter = true;
private MessageHandler m_msgHandler;
private LockssUrlConnectionPool connectionPool = new LockssUrlConnectionPool();
private String proxyHost;
private String userAgent;
private int proxyPort;
// our storage for extracted urls
private TreeSet m_extracted = new TreeSet();
private TreeSet m_incls = new TreeSet();
private TreeSet m_excls = new TreeSet();
private TreeSet m_reported = new TreeSet();
public CrawlRuleTester(int crawlDepth, long crawlDelay, String baseUrl, ArchivalUnit au) {
super("crawlrule tester");
m_crawlDepth = crawlDepth;
long minFetchDelay =
CurrentConfig.getLongParam(
BaseArchivalUnit.PARAM_MIN_FETCH_DELAY, BaseArchivalUnit.DEFAULT_MIN_FETCH_DELAY);
m_crawlDelay = Math.max(crawlDelay, minFetchDelay);
m_baseUrl = baseUrl;
m_au = au;
}
/**
* RuleTest
*
* @param outFile String
* @param crawlDepth int
* @param crawlDelay long
* @param baseUrl String
* @param crawlSpec CrawlSpec
*/
public CrawlRuleTester(
String outFile, int crawlDepth, long crawlDelay, String baseUrl, ArchivalUnit au) {
this(crawlDepth, crawlDelay, baseUrl, au);
m_outputFile = outFile;
}
/**
* RuleTest
*
* @param outWriter BufferedWriter
* @param crawlDepth int
* @param crawlDelay long
* @param baseUrl String
* @param crawlSpec CrawlSpec
*/
public CrawlRuleTester(
BufferedWriter outWriter, int crawlDepth, long crawlDelay, String baseUrl, ArchivalUnit au) {
this(crawlDepth, crawlDelay, baseUrl, au);
m_outWriter = outWriter;
}
/**
* RuleTest
*
* @param msgHandler MessageHandler to take all output
* @param crawlDepth the crawl depth to use
* @param crawlDelay the type to wait between fetches
* @param baseUrl the url to start from
* @param crawlSpec a CrawlSpec to use for url checking.
*/
public CrawlRuleTester(
MessageHandler msgHandler, int crawlDepth, long crawlDelay, String baseUrl, ArchivalUnit au) {
this(crawlDepth, crawlDelay, baseUrl, au);
m_msgHandler = msgHandler;
}
public void run() {
try {
setConfig(ConfigManager.getCurrentConfig());
if (m_outWriter == null && m_msgHandler == null) {
useLocalWriter = true;
} else {
useLocalWriter = false;
}
if (useLocalWriter) {
openOutputFile();
}
checkRules();
if (useLocalWriter) {
closeOutputFile();
}
} finally {
if (m_msgHandler != null) {
m_msgHandler.close();
}
}
}
void setConfig(Configuration config) {
log.debug("config: " + config);
proxyHost = config.get(PARAM_PROXY_HOST);
proxyPort = config.getInt(PARAM_PROXY_PORT, DEFAULT_PROXY_PORT);
if (StringUtil.isNullString(proxyHost) || proxyPort <= 0) {
String http_proxy = System.getenv("http_proxy");
if (!StringUtil.isNullString(http_proxy)) {
try {
HostPortParser hpp = new HostPortParser(http_proxy);
proxyHost = hpp.getHost();
proxyPort = hpp.getPort();
} catch (HostPortParser.InvalidSpec e) {
log.warning("Can't parse http_proxy environment var, ignoring: " + http_proxy + ": " + e);
}
}
}
if (StringUtil.isNullString(proxyHost) || proxyPort <= 0) {
proxyHost = null;
} else {
log.info("Proxying through " + proxyHost + ":" + proxyPort);
}
userAgent = config.get(PARAM_USER_AGENT);
if (StringUtil.isNullString(userAgent)) {
userAgent = null;
} else {
log.debug("Setting User-Agent to " + userAgent);
}
}
private void openOutputFile() {
if (m_outputFile != null) {
try {
m_outWriter = new BufferedWriter(new FileWriter(m_outputFile, false));
return;
} catch (Exception ex) {
System.err.println("Error opening output file, writing to stdout: " + ex);
}
}
m_outWriter = new BufferedWriter(new OutputStreamWriter(System.out));
}
private void closeOutputFile() {
try {
if (m_outWriter != null) {
m_outWriter.close();
}
} catch (IOException ex) {
System.err.println("Error closing output file.");
}
}
int[] depth_incl;
int[] depth_fetched;
int[] depth_parsed;
private void checkRules() {
outputMessage("\nChecking " + m_baseUrl, TEST_SUMMARY_MESSAGE);
outputMessage(
"crawl depth: " + m_crawlDepth + " crawl delay: " + m_crawlDelay + " ms.",
PLAIN_MESSAGE);
TreeSet crawlList = new TreeSet();
TreeSet fetched = new TreeSet();
// inialize with the baseUrl
crawlList.add(m_baseUrl);
depth_incl = new int[m_crawlDepth];
depth_fetched = new int[m_crawlDepth];
depth_parsed = new int[m_crawlDepth];
long start_time = TimeBase.nowMs();
for (int depth = 1; depth <= m_crawlDepth; depth++) {
if (isInterrupted()) {
return;
}
m_curDepth = depth;
if (crawlList.isEmpty() && depth <= m_crawlDepth) {
outputMessage("\nNothing left to crawl, exiting after depth " + (depth - 1), PLAIN_MESSAGE);
break;
}
String[] urls = (String[]) crawlList.toArray(new String[0]);
crawlList.clear();
outputMessage("\nDepth " + depth, PLAIN_MESSAGE);
for (int ix = 0; ix < urls.length; ix++) {
if (isInterrupted()) {
return;
}
pauseBeforeFetch();
String urlstr = urls[ix];
m_incls.clear();
m_excls.clear();
// crawl the page
buildUrlSets(urlstr);
fetched.add(urlstr);
// output incl/excl results,
// add the new_incls to the crawlList for next crawl depth loop
crawlList.addAll(outputUrlResults(urlstr, m_incls, m_excls));
}
}
long elapsed_time = TimeBase.nowMs() - start_time;
outputSummary(m_baseUrl, fetched, crawlList, elapsed_time);
}
private void buildUrlSets(String url) {
try {
outputMessage("\nFetching " + url, TEST_SUMMARY_MESSAGE);
URL srcUrl = new URL(url);
// URLConnection conn = srcUrl.openConnection();
// String type = conn.getContentType();
// type = conn.getHeaderField("content-type");
// InputStream istr = conn.getInputStream();
LockssUrlConnection conn = UrlUtil.openConnection(url, connectionPool);
if (proxyHost != null) {
conn.setProxy(proxyHost, proxyPort);
}
if (userAgent != null) {
conn.setRequestProperty("user-agent", userAgent);
}
try {
conn.execute();
int resp = conn.getResponseCode();
if (resp != 200) {
outputMessage("Resp: " + resp + ": " + conn.getResponseMessage(), TEST_SUMMARY_MESSAGE);
return;
}
depth_fetched[m_curDepth - 1]++;
String cookies = conn.getResponseHeaderValue("Set-Cookie");
if (cookies != null) {
outputMessage("Cookies: " + cookies, PLAIN_MESSAGE);
}
String type = conn.getResponseContentType();
if (type == null || !type.toLowerCase().startsWith("text/html")) {
outputMessage("Type: " + type + ", not parsing", URL_SUMMARY_MESSAGE);
return;
}
outputMessage("Type: " + type + ", extracting Urls", URL_SUMMARY_MESSAGE);
InputStream istr = conn.getResponseInputStream();
InputStreamReader reader = new InputStreamReader(istr);
// MyMockCachedUrl mcu = new MyMockCachedUrl(srcUrl.toString(), reader);
GoslingHtmlLinkExtractor extractor = new GoslingHtmlLinkExtractor();
extractor.extractUrls(null, istr, null, srcUrl.toString(), new MyLinkExtractorCallback());
istr.close();
depth_parsed[m_curDepth - 1]++;
} finally {
conn.release();
}
} catch (MalformedURLException murle) {
murle.printStackTrace();
outputErrResults(url, "Malformed URL:" + murle.getMessage());
} catch (IOException ex) {
ex.printStackTrace();
outputErrResults(url, "IOException: " + ex.getMessage());
}
}
private void pauseBeforeFetch() {
if (!fetchDeadline.expired()) {
try {
fetchDeadline.sleep();
} catch (InterruptedException ie) {
// no action
}
}
fetchDeadline.expireIn(m_crawlDelay);
}
private void outputMessage(String msg, int msgType) {
if (isInterrupted()) {
return;
}
if (m_msgHandler != null) {
m_msgHandler.outputMessage(msg + "\n", msgType);
} else {
try {
m_outWriter.write(msg);
m_outWriter.newLine();
} catch (Exception ex) {
System.err.println(msg);
}
}
}
private void outputErrResults(String url, String errMsg) {
outputMessage("Error: " + errMsg + " occured while processing " + url, ERROR_MESSAGE);
}
private Set outputUrlResults(String url, Set m_inclset, Set m_exclset) {
Set new_incls = new TreeSet(CollectionUtils.subtract(m_inclset, m_reported));
Set new_excls = new TreeSet(CollectionUtils.subtract(m_exclset, m_reported));
if (!m_inclset.isEmpty()) {
outputMessage(
"\nIncluded Urls: ("
+ new_incls.size()
+ " new, "
+ (m_inclset.size() - new_incls.size())
+ " old)",
URL_SUMMARY_MESSAGE);
depth_incl[m_curDepth - 1] += new_incls.size();
}
for (Iterator it = new_incls.iterator(); it.hasNext(); ) {
outputMessage(it.next().toString(), PLAIN_MESSAGE);
}
if (!m_exclset.isEmpty()) {
outputMessage(
"\nExcluded Urls: ("
+ new_excls.size()
+ " new, "
+ (m_exclset.size() - new_excls.size())
+ " old)",
URL_SUMMARY_MESSAGE);
}
for (Iterator it = new_excls.iterator(); it.hasNext(); ) {
outputMessage(it.next().toString(), PLAIN_MESSAGE);
}
m_reported.addAll(new_incls);
m_reported.addAll(new_excls);
if (m_outWriter != null) {
try {
m_outWriter.flush();
} catch (IOException ex) {
}
}
return new_incls;
}
private void outputSummary(String baseUrl, Set fetched, Set toCrawl, long elapsedTime) {
int fetchCount = fetched.size();
outputMessage(
"\n\nSummary for starting Url: " + baseUrl + " and depth: " + m_crawlDepth,
TEST_SUMMARY_MESSAGE);
outputMessage(
"\nUrls fetched: " + fetchCount + " Urls extracted: " + m_extracted.size(),
PLAIN_MESSAGE);
outputMessage("\nDepth Fetched Parsed New URLs", PLAIN_MESSAGE);
for (int depth = 1; depth <= m_crawlDepth; depth++) {
PrintfFormat pf = new PrintfFormat("%5d %7d %6d %8d");
Integer[] args =
new Integer[] {
new Integer(depth),
new Integer(depth_fetched[depth - 1]),
new Integer(depth_parsed[depth - 1]),
new Integer(depth_incl[depth - 1]),
};
String s = pf.sprintf(args);
outputMessage(s, PLAIN_MESSAGE);
}
outputMessage("\nRemaining unfetched: " + toCrawl.size(), PLAIN_MESSAGE);
if (false) {
for (Iterator iter = toCrawl.iterator(); iter.hasNext(); ) {
String url = (String) iter.next();
outputMessage(url, PLAIN_MESSAGE);
}
}
long secs = elapsedTime / Constants.SECOND;
long fetchRate = 0;
if (secs > 0) {
fetchRate = fetchCount * 60 * Constants.SECOND / elapsedTime;
}
outputMessage(
"\nElapsed Time: " + secs + " secs." + " Fetch Rate: " + fetchRate + " p/m",
PLAIN_MESSAGE);
}
public interface MessageHandler {
void outputMessage(String message, int messageType);
void close();
}
private class MyLinkExtractorCallback implements LinkExtractor.Callback {
MyLinkExtractorCallback() {}
public void foundLink(String url) {
m_extracted.add(url);
try {
String normUrl = UrlUtil.normalizeUrl(url);
if (BaseCrawler.isSupportedUrlProtocol(normUrl) && m_au.shouldBeCached(normUrl)) {
m_incls.add(normUrl);
} else {
m_excls.add(normUrl);
}
} catch (MalformedURLException e) {
m_excls.add(url);
}
}
}
class MyMockCachedUrl implements CachedUrl {
private String url;
private boolean doesExist = false;
private Reader reader = null;
public MyMockCachedUrl(String url, Reader reader) {
this.url = url;
this.reader = reader;
}
public ArchivalUnit getArchivalUnit() {
throw new UnsupportedOperationException("Not implemented");
}
public String getUrl() {
return url;
}
public CachedUrl getCuVersion(int version) {
throw new UnsupportedOperationException("Not implemented");
}
public CachedUrl[] getCuVersions() {
throw new UnsupportedOperationException("Not implemented");
}
public CachedUrl[] getCuVersions(int maxVersions) {
throw new UnsupportedOperationException("Not implemented");
}
public int getVersion() {
return 1;
}
public Reader openForReading() {
return reader;
}
public LinkRewriterFactory getLinkRewriterFactory() {
throw new UnsupportedOperationException("Not implemented");
}
public String getEncoding() {
return Constants.DEFAULT_ENCODING;
}
/**
* getUnfilteredInputStream
*
* @return InputStream
*/
public InputStream getUnfilteredInputStream() {
throw new UnsupportedOperationException("Not implemented");
}
/**
* getUnfilteredInputStream
*
* @return InputStream
*/
public InputStream getUnfilteredInputStream(HashedInputStream.Hasher hasher) {
throw new UnsupportedOperationException("Not implemented");
}
public InputStream getUncompressedInputStream() {
throw new UnsupportedOperationException("Not implemented");
}
public InputStream getUncompressedInputStream(HashedInputStream.Hasher hasher) {
throw new UnsupportedOperationException("Not implemented");
}
/**
* openForHashing
*
* @return InputStream
*/
public InputStream openForHashing() {
throw new UnsupportedOperationException("Not implemented");
}
/**
* openForHashing
*
* @param hasher HashedInputStream.Hasher for unfiltered content
* @return InputStream
*/
public InputStream openForHashing(HashedInputStream.Hasher hasher) {
throw new UnsupportedOperationException("Not implemented");
}
/**
* getContentSize
*
* @return long
*/
public long getContentSize() {
throw new UnsupportedOperationException("Not implemented");
}
public String getContentType() {
throw new UnsupportedOperationException("Not implemented");
}
public void setOption(String option, String val) {}
public boolean hasContent() {
return doesExist;
}
public boolean isLeaf() {
return true;
}
public int getType() {
return CachedUrlSetNode.TYPE_CACHED_URL;
}
public CIProperties getProperties() {
return null;
}
public void addProperty(String key, String value) {}
public void release() {}
public String toString() {
StringBuffer sb = new StringBuffer(url.length() + 17);
sb.append("[MyMockCachedUrl: ");
sb.append(url);
sb.append("]");
return sb.toString();
}
@Override
public FileMetadataExtractor getFileMetadataExtractor(MetadataTarget target) {
return null;
}
public CachedUrl getArchiveMemberCu(ArchiveMemberSpec ams) {
throw new UnsupportedOperationException("Not implemented");
}
@Override
public boolean isArchiveMember() {
return false;
}
}
}
/**
* DefinablePlugin: a plugin which uses the data stored in an ExternalizableMap to configure itself.
*
* @author Claire Griffin
* @version 1.0
*/
public class DefinablePlugin extends BasePlugin {
// configuration map keys
public static final String KEY_PLUGIN_IDENTIFIER = "plugin_identifier";
public static final String KEY_PLUGIN_NAME = "plugin_name";
public static final String KEY_PLUGIN_VERSION = "plugin_version";
public static final String KEY_PLUGIN_FEATURE_VERSION_MAP = "plugin_feature_version_map";
public static final String KEY_REQUIRED_DAEMON_VERSION = "required_daemon_version";
public static final String KEY_PUBLISHING_PLATFORM = "plugin_publishing_platform";
public static final String KEY_PLUGIN_CONFIG_PROPS = "plugin_config_props";
public static final String KEY_EXCEPTION_HANDLER = "plugin_cache_result_handler";
public static final String KEY_EXCEPTION_LIST = "plugin_cache_result_list";
public static final String KEY_PLUGIN_NOTES = "plugin_notes";
public static final String KEY_CRAWL_TYPE = "plugin_crawl_type";
public static final String KEY_FOLLOW_LINKS = "plugin_follow_link";
/** Message to be displayed when user configures an AU with this plugin */
public static final String KEY_PLUGIN_AU_CONFIG_USER_MSG = "plugin_au_config_user_msg";
public static final String KEY_PER_HOST_PERMISSION_PATH = "plugin_per_host_permission_path";
public static final String KEY_PLUGIN_PARENT = "plugin_parent";
public static final String KEY_PLUGIN_PARENT_VERSION = "plugin_parent_version";
public static final String KEY_PLUGIN_CRAWL_URL_COMPARATOR_FACTORY =
"plugin_crawl_url_comparator_factory";
public static final String KEY_PLUGIN_FETCH_RATE_LIMITER_SOURCE =
"plugin_fetch_rate_limiter_source";
public static final String KEY_PLUGIN_ARTICLE_ITERATOR_FACTORY =
"plugin_article_iterator_factory";
public static final String KEY_PLUGIN_ARTICLE_METADATA_EXTRACTOR_FACTORY =
"plugin_article_metadata_extractor_factory";
public static final String KEY_DEFAULT_ARTICLE_MIME_TYPE = "plugin_default_article_mime_type";
public static final String KEY_ARTICLE_ITERATOR_ROOT = "plugin_article_iterator_root";
public static final String KEY_ARTICLE_ITERATOR_PATTERN = "plugin_article_iterator_pattern";
public static final String DEFAULT_PLUGIN_VERSION = "1";
public static final String DEFAULT_REQUIRED_DAEMON_VERSION = "0.0.0";
public static final String MAP_SUFFIX = ".xml";
public static final String CRAWL_TYPE_HTML_LINKS = "HTML Links";
public static final String CRAWL_TYPE_OAI = "OAI";
public static final String[] CRAWL_TYPES = {
CRAWL_TYPE_HTML_LINKS, CRAWL_TYPE_OAI,
};
public static final String DEFAULT_CRAWL_TYPE = CRAWL_TYPE_HTML_LINKS;
protected String mapName = null;
static Logger log = Logger.getLogger("DefinablePlugin");
protected ExternalizableMap definitionMap = new ExternalizableMap();
protected CacheResultHandler resultHandler = null;
protected List<String> loadedFromUrls;
protected CrawlWindow crawlWindow;
protected Map<Plugin.Feature, String> featureVersion;
public void initPlugin(LockssDaemon daemon, String extMapName) throws FileNotFoundException {
initPlugin(daemon, extMapName, this.getClass().getClassLoader());
}
public void initPlugin(LockssDaemon daemon, String extMapName, ClassLoader loader)
throws FileNotFoundException {
// convert the plugin class name to an xml file name
// load the configuration map from jar file
ExternalizableMap defMap = loadMap(extMapName, loader);
this.initPlugin(daemon, extMapName, defMap, loader);
}
public void initPlugin(
LockssDaemon daemon, String extMapName, ExternalizableMap defMap, ClassLoader loader) {
mapName = extMapName;
this.classLoader = loader;
this.definitionMap = defMap;
super.initPlugin(daemon);
initMimeMap();
initFeatureVersions();
initAuFeatureMap();
checkParamAgreement();
}
private ExternalizableMap loadMap(String extMapName, ClassLoader loader)
throws FileNotFoundException {
String first = null;
String next = extMapName;
List<String> urls = new ArrayList<String>();
ExternalizableMap res = null;
while (next != null) {
// convert the plugin class name to an xml file name
String mapFile = next.replace('.', '/') + MAP_SUFFIX;
URL url = loader.getResource(mapFile);
if (url != null && urls.contains(url.toString())) {
throw new PluginException.InvalidDefinition("Plugin inheritance loop: " + next);
}
// load into map
ExternalizableMap oneMap = new ExternalizableMap();
oneMap.loadMapFromResource(mapFile, loader);
urls.add(url.toString());
// apply overrides one plugin at a time in inheritance chain
processOverrides(oneMap);
if (res == null) {
res = oneMap;
} else {
for (Map.Entry ent : oneMap.entrySet()) {
String key = (String) ent.getKey();
Object val = ent.getValue();
if (!res.containsKey(key)) {
res.setMapElement(key, val);
}
}
}
if (oneMap.containsKey(KEY_PLUGIN_PARENT)) {
next = oneMap.getString(KEY_PLUGIN_PARENT);
} else {
next = null;
}
}
loadedFromUrls = urls;
return res;
}
/** If in testing mode FOO, copy values from FOO_override map, if any, to main map */
void processOverrides(TypedEntryMap map) {
String testMode = getTestingMode();
if (StringUtil.isNullString(testMode)) {
return;
}
Object o = map.getMapElement(testMode + DefinableArchivalUnit.SUFFIX_OVERRIDE);
if (o == null) {
return;
}
if (o instanceof Map) {
Map overrideMap = (Map) o;
for (Map.Entry entry : (Set<Map.Entry>) overrideMap.entrySet()) {
String key = (String) entry.getKey();
Object val = entry.getValue();
log.debug(getDefaultPluginName() + ": Overriding " + key + " with " + val);
map.setMapElement(key, val);
}
}
}
String getTestingMode() {
return theDaemon == null ? null : theDaemon.getTestingMode();
}
// Used by tests
public void initPlugin(LockssDaemon daemon, File file) throws PluginException {
ExternalizableMap oneMap = new ExternalizableMap();
oneMap.loadMap(file);
if (oneMap.getErrorString() != null) {
throw new PluginException(oneMap.getErrorString());
}
initPlugin(daemon, file.getPath(), oneMap, null);
}
void initPlugin(LockssDaemon daemon, ExternalizableMap defMap) {
initPlugin(daemon, defMap, this.getClass().getClassLoader());
}
void initPlugin(LockssDaemon daemon, ExternalizableMap defMap, ClassLoader loader) {
initPlugin(daemon, "Internal", defMap, loader);
}
enum PrintfContext {
Regexp,
URL,
Display
};
void checkParamAgreement() {
for (Map.Entry<String, PrintfContext> ent :
DefinableArchivalUnit.printfKeysContext.entrySet()) {
checkParamAgreement(ent.getKey(), ent.getValue());
}
}
void checkParamAgreement(String key, PrintfContext context) {
List<String> printfList = getElementList(key);
if (printfList == null) {
return;
}
for (String printf : printfList) {
if (StringUtil.isNullString(printf)) {
log.warning("Null printf string in " + key);
continue;
}
PrintfUtil.PrintfData p_data = PrintfUtil.stringToPrintf(printf);
Collection<String> p_args = p_data.getArguments();
for (String arg : p_args) {
ConfigParamDescr descr = findAuConfigDescr(arg);
if (descr == null) {
throw new PluginException.InvalidDefinition(
"Not a declared parameter: " + arg + " in " + printf + " in " + getPluginName());
}
// ensure range and set params used only in legal context
switch (context) {
case Regexp:
case Display:
// everything is legal in a regexp or a display string
break;
case URL:
// NUM_RANGE and SET legal because can enumerate. Can't
// enumerate RANGE
switch (descr.getType()) {
case ConfigParamDescr.TYPE_RANGE:
throw new PluginException.InvalidDefinition(
"Range parameter ("
+ arg
+ ") used in illegal context in "
+ getPluginName()
+ ": "
+ key
+ ": "
+ printf);
default:
}
}
}
}
}
public List<String> getLoadedFromUrls() {
return loadedFromUrls;
}
public String getPluginName() {
if (definitionMap.containsKey(KEY_PLUGIN_NAME)) {
return definitionMap.getString(KEY_PLUGIN_NAME);
} else {
return getDefaultPluginName();
}
}
protected String getDefaultPluginName() {
return StringUtil.shortName(getPluginId());
}
public String getVersion() {
return definitionMap.getString(KEY_PLUGIN_VERSION, DEFAULT_PLUGIN_VERSION);
}
public String getFeatureVersion(Plugin.Feature feat) {
if (featureVersion == null) {
return null;
}
return featureVersion.get(feat);
}
public String getRequiredDaemonVersion() {
return definitionMap.getString(KEY_REQUIRED_DAEMON_VERSION, DEFAULT_REQUIRED_DAEMON_VERSION);
}
public String getPublishingPlatform() {
return definitionMap.getString(KEY_PUBLISHING_PLATFORM, null);
}
public String getPluginNotes() {
return definitionMap.getString(KEY_PLUGIN_NOTES, null);
}
public String getDefaultArticleMimeType() {
String ret = definitionMap.getString(KEY_DEFAULT_ARTICLE_MIME_TYPE, null);
log.debug3("DefaultArticleMimeType " + ret);
if (ret == null) {
ret = super.getDefaultArticleMimeType();
log.debug3("DefaultArticleMimeType from super " + ret);
}
return ret;
}
public List<String> getElementList(String key) {
Object element = definitionMap.getMapElement(key);
List<String> lst;
if (element instanceof String) {
return Collections.singletonList((String) element);
} else if (element instanceof List) {
return (List) element;
} else {
return null;
}
}
public List getLocalAuConfigDescrs() throws PluginException.InvalidDefinition {
List auConfigDescrs = (List) definitionMap.getCollection(KEY_PLUGIN_CONFIG_PROPS, null);
if (auConfigDescrs == null) {
throw new PluginException.InvalidDefinition(mapName + " missing ConfigParamDescrs");
}
return auConfigDescrs;
}
protected ArchivalUnit createAu0(Configuration auConfig)
throws ArchivalUnit.ConfigurationException {
DefinableArchivalUnit au = new DefinableArchivalUnit(this, definitionMap);
au.setConfiguration(auConfig);
return au;
}
public ExternalizableMap getDefinitionMap() {
return definitionMap;
}
CacheResultHandler getCacheResultHandler() {
return resultHandler;
}
String stripSuffix(String str, String suffix) {
return str.substring(0, str.length() - suffix.length());
}
protected void initMimeMap() throws PluginException.InvalidDefinition {
for (Iterator iter = definitionMap.entrySet().iterator(); iter.hasNext(); ) {
Map.Entry ent = (Map.Entry) iter.next();
String key = (String) ent.getKey();
Object val = ent.getValue();
if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY);
if (val instanceof String) {
String factName = (String) val;
log.debug(mime + " link extractor: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
LinkExtractorFactory fact =
(LinkExtractorFactory) newAuxClass(factName, LinkExtractorFactory.class);
mti.setLinkExtractorFactory(fact);
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY)) {
// XXX This clause must precede the one for SUFFIX_HASH_FILTER_FACTORY
// XXX unless/until that key is changed to not be a terminal substring
// XXX of this one
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY);
if (val instanceof String) {
String factName = (String) val;
log.debug(mime + " crawl filter: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
mti.setCrawlFilterFactory(fact);
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY);
if (val instanceof String) {
String factName = (String) val;
log.debug(mime + " filter: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
mti.setHashFilterFactory(fact);
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT);
if (val instanceof String) {
String rate = (String) val;
log.debug(mime + " fetch rate: " + rate);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
RateLimiter limit = mti.getFetchRateLimiter();
if (limit != null) {
limit.setRate(rate);
} else {
mti.setFetchRateLimiter(new RateLimiter(rate));
}
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY);
String factName = (String) val;
log.debug(mime + " link rewriter: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
LinkRewriterFactory fact =
(LinkRewriterFactory) newAuxClass(factName, LinkRewriterFactory.class);
mti.setLinkRewriterFactory(fact);
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP);
Map factNameMap = (Map) val;
Map factClassMap = new HashMap();
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
for (Iterator it = factNameMap.keySet().iterator(); it.hasNext(); ) {
String mdTypes = (String) it.next();
String factName = (String) factNameMap.get(mdTypes);
log.debug(mime + " (" + mdTypes + ") metadata extractor: " + factName);
for (String mdType : (List<String>) StringUtil.breakAt(mdTypes, ";")) {
setMdTypeFact(factClassMap, mdType, factName);
}
}
mti.setFileMetadataExtractorFactoryMap(factClassMap);
}
}
}
private void setMdTypeFact(Map factClassMap, String mdType, String factName) {
log.debug3("Metadata type: " + mdType + " factory " + factName);
FileMetadataExtractorFactory fact =
(FileMetadataExtractorFactory) newAuxClass(factName, FileMetadataExtractorFactory.class);
factClassMap.put(mdType, fact);
}
protected void initResultMap() throws PluginException.InvalidDefinition {
HttpResultMap hResultMap = new HttpResultMap();
// XXX Currently this only allows a CacheResultHandler class to
// initialize the result map. Instead, don't use a CacheResultMap
// directly, use either the plugin's CacheResultHandler, if specified,
// or a default one that wraps the CacheResultMap
String handler_class = null;
handler_class = definitionMap.getString(KEY_EXCEPTION_HANDLER, null);
if (handler_class != null) {
try {
resultHandler = (CacheResultHandler) newAuxClass(handler_class, CacheResultHandler.class);
resultHandler.init(hResultMap);
} catch (Exception ex) {
throw new PluginException.InvalidDefinition(
mapName + " has invalid Exception handler: " + handler_class, ex);
} catch (LinkageError le) {
throw new PluginException.InvalidDefinition(
mapName + " has invalid Exception handler: " + handler_class, le);
}
} else {
// Expect a list of mappings from either result code or exception
// name to CacheException name
Collection<String> mappings = definitionMap.getCollection(KEY_EXCEPTION_LIST, null);
if (mappings != null) {
// add each entry
for (String entry : mappings) {
if (log.isDebug2()) {
log.debug2("initMap(" + entry + ")");
}
String first;
String ceName;
try {
List<String> pair = StringUtil.breakAt(entry, '=', 2, true, true);
first = pair.get(0);
ceName = pair.get(1);
} catch (Exception ex) {
throw new PluginException.InvalidDefinition(
"Invalid syntax: " + entry + "in " + mapName);
}
Object val;
// Value should be either a CacheException or CacheResultHandler
// class name.
PluginFetchEventResponse resp =
(PluginFetchEventResponse) newAuxClass(ceName, PluginFetchEventResponse.class, null);
if (resp instanceof CacheException) {
val = resp.getClass();
} else if (resp instanceof CacheResultHandler) {
val = WrapperUtil.wrap((CacheResultHandler) resp, CacheResultHandler.class);
} else {
throw new PluginException.InvalidDefinition(
"Second arg not a "
+ "CacheException or "
+ "CacheResultHandler class: "
+ entry
+ ", in "
+ mapName);
}
try {
int code = Integer.parseInt(first);
// If parseable as an integer, it's a result code.
hResultMap.storeMapEntry(code, val);
} catch (NumberFormatException e) {
try {
Class eClass = Class.forName(first);
// If a class name, it should be an exception class
if (Exception.class.isAssignableFrom(eClass)) {
hResultMap.storeMapEntry(eClass, val);
} else {
throw new PluginException.InvalidDefinition(
"First arg not an " + "Exception class: " + entry + ", in " + mapName);
}
} catch (Exception ex) {
throw new PluginException.InvalidDefinition(
"First arg not a " + "number or class: " + entry + ", in " + mapName);
} catch (LinkageError le) {
throw new PluginException.InvalidDefinition("Can't load " + first, le);
}
}
}
}
}
resultMap = hResultMap;
}
protected void initFeatureVersions() throws PluginException.InvalidDefinition {
if (definitionMap.containsKey(KEY_PLUGIN_FEATURE_VERSION_MAP)) {
Map<Plugin.Feature, String> map = new HashMap<Plugin.Feature, String>();
Map<String, String> spec =
(Map<String, String>) definitionMap.getMap(KEY_PLUGIN_FEATURE_VERSION_MAP);
log.debug2("features: " + spec);
for (Map.Entry<String, String> ent : spec.entrySet()) {
try {
// Prefix version string with feature name to create separate
// namespace for each feature
String key = ent.getKey();
map.put(Plugin.Feature.valueOf(key), key + "_" + ent.getValue());
} catch (RuntimeException e) {
log.warning(
getPluginName()
+ " set unknown feature: "
+ ent.getKey()
+ " to version "
+ ent.getValue(),
e);
throw new PluginException.InvalidDefinition("Unknown feature: " + ent.getKey(), e);
}
}
featureVersion = map;
} else {
featureVersion = null;
}
}
protected void initAuFeatureMap() {
if (definitionMap.containsKey(DefinableArchivalUnit.KEY_AU_FEATURE_URL_MAP)) {
Map<String, ?> featMap = definitionMap.getMap(DefinableArchivalUnit.KEY_AU_FEATURE_URL_MAP);
for (Map.Entry ent : featMap.entrySet()) {
Object val = ent.getValue();
if (val instanceof Map) {
ent.setValue(MapUtil.expandAlternativeKeyLists((Map) val));
}
}
}
}
/** Create a CrawlWindow if necessary and return it. The CrawlWindow must be thread-safe. */
protected CrawlWindow makeCrawlWindow() {
if (crawlWindow != null) {
return crawlWindow;
}
CrawlWindow window =
(CrawlWindow) definitionMap.getMapElement(DefinableArchivalUnit.KEY_AU_CRAWL_WINDOW_SER);
if (window == null) {
String window_class =
definitionMap.getString(DefinableArchivalUnit.KEY_AU_CRAWL_WINDOW, null);
if (window_class != null) {
ConfigurableCrawlWindow ccw =
(ConfigurableCrawlWindow) newAuxClass(window_class, ConfigurableCrawlWindow.class);
try {
window = ccw.makeCrawlWindow();
} catch (PluginException e) {
throw new RuntimeException(e);
}
}
}
crawlWindow = window;
return window;
}
LoginPageChecker loginChecker;
protected LoginPageChecker makeLoginPageChecker() {
if (loginChecker == null) {
String loginPageCheckerClass =
definitionMap.getString(DefinableArchivalUnit.KEY_AU_LOGIN_PAGE_CHECKER, null);
if (loginPageCheckerClass != null) {
loginChecker =
(LoginPageChecker) newAuxClass(loginPageCheckerClass, LoginPageChecker.class);
}
}
return loginChecker;
}
PermissionCheckerFactory permissionCheckerFact;
protected PermissionCheckerFactory getPermissionCheckerFactory() {
if (permissionCheckerFact == null) {
String permissionCheckerFactoryClass =
definitionMap.getString(DefinableArchivalUnit.KEY_AU_PERMISSION_CHECKER_FACTORY, null);
if (permissionCheckerFactoryClass != null) {
permissionCheckerFact =
(PermissionCheckerFactory)
newAuxClass(permissionCheckerFactoryClass, PermissionCheckerFactory.class);
log.debug2("Loaded PermissionCheckerFactory: " + permissionCheckerFact);
}
}
return permissionCheckerFact;
}
protected UrlNormalizer urlNorm;
protected UrlNormalizer getUrlNormalizer() {
if (urlNorm == null) {
String normalizerClass =
definitionMap.getString(DefinableArchivalUnit.KEY_AU_URL_NORMALIZER, null);
if (normalizerClass != null) {
urlNorm = (UrlNormalizer) newAuxClass(normalizerClass, UrlNormalizer.class);
} else {
urlNorm = NullUrlNormalizer.INSTANCE;
}
}
return urlNorm;
}
protected ExploderHelper exploderHelper = null;
protected ExploderHelper getExploderHelper() {
if (exploderHelper == null) {
String helperClass =
definitionMap.getString(DefinableArchivalUnit.KEY_AU_EXPLODER_HELPER, null);
if (helperClass != null) {
exploderHelper = (ExploderHelper) newAuxClass(helperClass, ExploderHelper.class);
}
}
return exploderHelper;
}
protected CrawlUrlComparatorFactory crawlUrlComparatorFactory = null;
protected CrawlUrlComparatorFactory getCrawlUrlComparatorFactory() {
if (crawlUrlComparatorFactory == null) {
String factClass =
definitionMap.getString(DefinablePlugin.KEY_PLUGIN_CRAWL_URL_COMPARATOR_FACTORY, null);
if (factClass != null) {
crawlUrlComparatorFactory =
(CrawlUrlComparatorFactory) newAuxClass(factClass, CrawlUrlComparatorFactory.class);
}
}
return crawlUrlComparatorFactory;
}
protected Comparator<CrawlUrl> getCrawlUrlComparator(ArchivalUnit au)
throws PluginException.LinkageError {
CrawlUrlComparatorFactory fact = getCrawlUrlComparatorFactory();
if (fact == null) {
return null;
}
return fact.createCrawlUrlComparator(au);
}
protected FilterRule constructFilterRule(String contentType) {
String mimeType = HeaderUtil.getMimeTypeFromContentType(contentType);
Object filter_el =
definitionMap.getMapElement(mimeType + DefinableArchivalUnit.SUFFIX_FILTER_RULE);
if (filter_el instanceof String) {
log.debug("Loading filter " + filter_el);
return (FilterRule) newAuxClass((String) filter_el, FilterRule.class);
} else if (filter_el instanceof List) {
if (((List) filter_el).size() > 0) {
return new DefinableFilterRule((List) filter_el);
}
}
return super.constructFilterRule(mimeType);
}
protected ArticleIteratorFactory articleIteratorFact = null;
protected ArticleMetadataExtractorFactory articleMetadataFact = null;
/**
* Returns the plugin's article iterator factory, if any
*
* @return the ArticleIteratorFactory
*/
public ArticleIteratorFactory getArticleIteratorFactory() {
if (articleIteratorFact == null) {
String factClass = definitionMap.getString(KEY_PLUGIN_ARTICLE_ITERATOR_FACTORY, null);
if (factClass != null) {
articleIteratorFact =
(ArticleIteratorFactory) newAuxClass(factClass, ArticleIteratorFactory.class);
}
}
return articleIteratorFact;
}
/**
* Returns the article iterator factory for the content type, if any
*
* @param contentType the content type
* @return the ArticleIteratorFactory
*/
public ArticleMetadataExtractorFactory getArticleMetadataExtractorFactory(MetadataTarget target) {
if (articleMetadataFact == null) {
String factClass =
definitionMap.getString(KEY_PLUGIN_ARTICLE_METADATA_EXTRACTOR_FACTORY, null);
if (factClass != null) {
articleMetadataFact =
(ArticleMetadataExtractorFactory)
newAuxClass(factClass, ArticleMetadataExtractorFactory.class);
}
}
return articleMetadataFact;
}
public String getPluginId() {
String className;
if (mapName != null) {
className = mapName;
} else {
// @TODO: eliminate this when we eliminate subclasses
className = this.getClass().getName();
}
return className;
}
}
protected void initResultMap() throws PluginException.InvalidDefinition {
HttpResultMap hResultMap = new HttpResultMap();
// XXX Currently this only allows a CacheResultHandler class to
// initialize the result map. Instead, don't use a CacheResultMap
// directly, use either the plugin's CacheResultHandler, if specified,
// or a default one that wraps the CacheResultMap
String handler_class = null;
handler_class = definitionMap.getString(KEY_EXCEPTION_HANDLER, null);
if (handler_class != null) {
try {
resultHandler = (CacheResultHandler) newAuxClass(handler_class, CacheResultHandler.class);
resultHandler.init(hResultMap);
} catch (Exception ex) {
throw new PluginException.InvalidDefinition(
mapName + " has invalid Exception handler: " + handler_class, ex);
} catch (LinkageError le) {
throw new PluginException.InvalidDefinition(
mapName + " has invalid Exception handler: " + handler_class, le);
}
} else {
// Expect a list of mappings from either result code or exception
// name to CacheException name
Collection<String> mappings = definitionMap.getCollection(KEY_EXCEPTION_LIST, null);
if (mappings != null) {
// add each entry
for (String entry : mappings) {
if (log.isDebug2()) {
log.debug2("initMap(" + entry + ")");
}
String first;
String ceName;
try {
List<String> pair = StringUtil.breakAt(entry, '=', 2, true, true);
first = pair.get(0);
ceName = pair.get(1);
} catch (Exception ex) {
throw new PluginException.InvalidDefinition(
"Invalid syntax: " + entry + "in " + mapName);
}
Object val;
// Value should be either a CacheException or CacheResultHandler
// class name.
PluginFetchEventResponse resp =
(PluginFetchEventResponse) newAuxClass(ceName, PluginFetchEventResponse.class, null);
if (resp instanceof CacheException) {
val = resp.getClass();
} else if (resp instanceof CacheResultHandler) {
val = WrapperUtil.wrap((CacheResultHandler) resp, CacheResultHandler.class);
} else {
throw new PluginException.InvalidDefinition(
"Second arg not a "
+ "CacheException or "
+ "CacheResultHandler class: "
+ entry
+ ", in "
+ mapName);
}
try {
int code = Integer.parseInt(first);
// If parseable as an integer, it's a result code.
hResultMap.storeMapEntry(code, val);
} catch (NumberFormatException e) {
try {
Class eClass = Class.forName(first);
// If a class name, it should be an exception class
if (Exception.class.isAssignableFrom(eClass)) {
hResultMap.storeMapEntry(eClass, val);
} else {
throw new PluginException.InvalidDefinition(
"First arg not an " + "Exception class: " + entry + ", in " + mapName);
}
} catch (Exception ex) {
throw new PluginException.InvalidDefinition(
"First arg not a " + "number or class: " + entry + ", in " + mapName);
} catch (LinkageError le) {
throw new PluginException.InvalidDefinition("Can't load " + first, le);
}
}
}
}
}
resultMap = hResultMap;
}
private void setMdTypeFact(Map factClassMap, String mdType, String factName) {
log.debug3("Metadata type: " + mdType + " factory " + factName);
FileMetadataExtractorFactory fact =
(FileMetadataExtractorFactory) newAuxClass(factName, FileMetadataExtractorFactory.class);
factClassMap.put(mdType, fact);
}
protected void initMimeMap() throws PluginException.InvalidDefinition {
for (Iterator iter = definitionMap.entrySet().iterator(); iter.hasNext(); ) {
Map.Entry ent = (Map.Entry) iter.next();
String key = (String) ent.getKey();
Object val = ent.getValue();
if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY);
if (val instanceof String) {
String factName = (String) val;
log.debug(mime + " link extractor: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
LinkExtractorFactory fact =
(LinkExtractorFactory) newAuxClass(factName, LinkExtractorFactory.class);
mti.setLinkExtractorFactory(fact);
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY)) {
// XXX This clause must precede the one for SUFFIX_HASH_FILTER_FACTORY
// XXX unless/until that key is changed to not be a terminal substring
// XXX of this one
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY);
if (val instanceof String) {
String factName = (String) val;
log.debug(mime + " crawl filter: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
mti.setCrawlFilterFactory(fact);
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY);
if (val instanceof String) {
String factName = (String) val;
log.debug(mime + " filter: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
mti.setHashFilterFactory(fact);
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT);
if (val instanceof String) {
String rate = (String) val;
log.debug(mime + " fetch rate: " + rate);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
RateLimiter limit = mti.getFetchRateLimiter();
if (limit != null) {
limit.setRate(rate);
} else {
mti.setFetchRateLimiter(new RateLimiter(rate));
}
}
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY);
String factName = (String) val;
log.debug(mime + " link rewriter: " + factName);
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
LinkRewriterFactory fact =
(LinkRewriterFactory) newAuxClass(factName, LinkRewriterFactory.class);
mti.setLinkRewriterFactory(fact);
} else if (key.endsWith(DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP)) {
String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP);
Map factNameMap = (Map) val;
Map factClassMap = new HashMap();
MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
for (Iterator it = factNameMap.keySet().iterator(); it.hasNext(); ) {
String mdTypes = (String) it.next();
String factName = (String) factNameMap.get(mdTypes);
log.debug(mime + " (" + mdTypes + ") metadata extractor: " + factName);
for (String mdType : (List<String>) StringUtil.breakAt(mdTypes, ";")) {
setMdTypeFact(factClassMap, mdType, factName);
}
}
mti.setFileMetadataExtractorFactoryMap(factClassMap);
}
}
}