/** * Return the value associated with the first pattern that the string matches, or the specified * default value if none, considering only patterns whose associated value is less than or equal * to maxPri. */ public int getMatch(String str, int dfault, int maxPri) { Perl5Matcher matcher = RegexpUtil.getMatcher(); for (Map.Entry<Pattern, Integer> ent : patternMap.entrySet()) { if (ent.getValue() <= maxPri) { Pattern pat = ent.getKey(); if (matcher.contains(str, pat)) { log.debug2("getMatch(" + str + "): " + ent.getValue()); return ent.getValue(); } } } log.debug2("getMatch(" + str + "): default: " + dfault); return dfault; }
/** * "Map" strings to integers, where the keys are patterns against which the strings are matched. The * patterns are ordered; the value associated with the first one that matches is returned. */ public class PatternIntMap { static Logger log = Logger.getLogger("PatternIntMap"); /** An empty PatternIntMap, which always returns the default value. */ public static final PatternIntMap EMPTY = new PatternIntMap(Collections.EMPTY_LIST); private Map<Pattern, Integer> patternMap; /** Create a PatternIntMap from a list of strings of the form <code><i>RE</i>,<i>int</i></code> */ public PatternIntMap(List<String> patternPairs) throws IllegalArgumentException { makePatternMap(patternPairs); } /** * Create a PatternIntMap from a string of the form <code> * <i>RE</i>,<i>int</i>[;<i>RE</i>,<i>int</i> ...]</code> */ public PatternIntMap(String spec) throws IllegalArgumentException { makePatternMap(StringUtil.breakAt(spec, ";", -1, true, true)); } private void makePatternMap(List<String> patternPairs) throws IllegalArgumentException { if (patternPairs != null) { patternMap = new LinkedMap(); for (String pair : patternPairs) { // Find the last occurrence of comma to avoid regexp quoting int pos = pair.lastIndexOf(','); if (pos < 0) { throw new IllegalArgumentException("Marformed pattern,int pair; no comma: " + pair); } String regexp = pair.substring(0, pos); String pristr = pair.substring(pos + 1); int pri; Pattern pat; try { pri = Integer.parseInt(pristr); int flags = Perl5Compiler.READ_ONLY_MASK; pat = RegexpUtil.getCompiler().compile(regexp, flags); patternMap.put(pat, pri); } catch (NumberFormatException e) { throw new IllegalArgumentException("Illegal priority: " + pristr); } catch (MalformedPatternException e) { throw new IllegalArgumentException("Illegal regexp: " + regexp); } } } } /** Return the value associated with the first pattern that the string matches, or zero if none */ public int getMatch(String str) { return getMatch(str, 0); } /** * Return the value associated with the first pattern that the string matches, or the specified * default value if none */ public int getMatch(String str, int dfault) { return getMatch(str, dfault, Integer.MAX_VALUE); } /** * Return the value associated with the first pattern that the string matches, or the specified * default value if none, considering only patterns whose associated value is less than or equal * to maxPri. */ public int getMatch(String str, int dfault, int maxPri) { Perl5Matcher matcher = RegexpUtil.getMatcher(); for (Map.Entry<Pattern, Integer> ent : patternMap.entrySet()) { if (ent.getValue() <= maxPri) { Pattern pat = ent.getKey(); if (matcher.contains(str, pat)) { log.debug2("getMatch(" + str + "): " + ent.getValue()); return ent.getValue(); } } } log.debug2("getMatch(" + str + "): default: " + dfault); return dfault; } public String toString() { StringBuilder sb = new StringBuilder(); sb.append("[pm: "); if (patternMap.isEmpty()) { sb.append("EMPTY"); } else { for (Iterator<Map.Entry<Pattern, Integer>> iter = patternMap.entrySet().iterator(); iter.hasNext(); ) { Map.Entry<Pattern, Integer> ent = iter.next(); sb.append("["); sb.append(ent.getKey().getPattern()); sb.append(": "); sb.append(ent.getValue()); sb.append("]"); if (iter.hasNext()) { sb.append(", "); } } } sb.append("]"); return sb.toString(); } }
{ String useMultiThreadedConnectionMgr = LPS.getProperty("http.useConnectionPool", "true"); if (Boolean.valueOf(useMultiThreadedConnectionMgr).booleanValue()) { mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="using connection pool" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-81")); mConnectionMgr = new MultiThreadedHttpConnectionManager(); } else { mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="not using connection pool" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-91")); } // Parse multi connection properties anyway. May be used by AXIS. See // ResponderCache for details. { String maxConns = LPS.getProperty("http.maxConns", "1000"); mMaxTotalConnections = Integer.parseInt(maxConns); if (mConnectionMgr != null) { mConnectionMgr.setMaxTotalConnections(mMaxTotalConnections); } maxConns = LPS.getProperty("http.maxConnsPerHost", maxConns); mMaxConnectionsPerHost = Integer.parseInt(maxConns); if (mConnectionMgr != null) { mConnectionMgr.setMaxConnectionsPerHost(mMaxConnectionsPerHost); } } String maxRetries = LPS.getProperty("http.maxBackendRetries", "1"); mMaxRetries = Integer.parseInt(maxRetries); String followRedirects = LPS.getProperty("http.followRedirects", "0"); mFollowRedirects = Integer.parseInt(followRedirects); String timeout = LPS.getProperty("http.backendTimeout", "30000"); mTimeout = Integer.parseInt(timeout); timeout = LPS.getProperty("http.backendConnectionTimeout", timeout); mConnectionTimeout = Integer.parseInt(timeout); timeout = LPS.getProperty("http.connectionPoolTimeout", "0"); mConnectionPoolTimeout = Integer.parseInt(timeout); String useHttp11 = LPS.getProperty("http.useHttp11", "true"); mUseHttp11 = Boolean.valueOf(useHttp11).booleanValue(); if (mUseHttp11) { mLogger.info("using HTTP 1.1"); } else { mLogger.info("not using HTTP 1.1"); } }
/** HTTP Transport */ public class HTTPDataSource extends DataSource { private static Logger mLogger = Logger.getLogger(HTTPDataSource.class); /** Connection Manager */ private static MultiThreadedHttpConnectionManager mConnectionMgr = null; /** max number of http retries */ private static int mMaxRetries = 1; /** Whether or not to use the http11 . */ private static boolean mUseHttp11 = true; /** Connection timeout millis (0 means default) */ private static int mConnectionTimeout = 0; /** Timeout millis (0 means infinity) */ private static int mTimeout = 0; /** Connection pool timeout in millis (0 means infinity) */ private static int mConnectionPoolTimeout = 0; /** Max total connections. */ private static int mMaxTotalConnections = 1000; /** Max connections per host. */ private static int mMaxConnectionsPerHost = mMaxTotalConnections; /** Number of backend redirects we allow (potential security hole) */ private static int mFollowRedirects = 0; { String useMultiThreadedConnectionMgr = LPS.getProperty("http.useConnectionPool", "true"); if (Boolean.valueOf(useMultiThreadedConnectionMgr).booleanValue()) { mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="using connection pool" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-81")); mConnectionMgr = new MultiThreadedHttpConnectionManager(); } else { mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="not using connection pool" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-91")); } // Parse multi connection properties anyway. May be used by AXIS. See // ResponderCache for details. { String maxConns = LPS.getProperty("http.maxConns", "1000"); mMaxTotalConnections = Integer.parseInt(maxConns); if (mConnectionMgr != null) { mConnectionMgr.setMaxTotalConnections(mMaxTotalConnections); } maxConns = LPS.getProperty("http.maxConnsPerHost", maxConns); mMaxConnectionsPerHost = Integer.parseInt(maxConns); if (mConnectionMgr != null) { mConnectionMgr.setMaxConnectionsPerHost(mMaxConnectionsPerHost); } } String maxRetries = LPS.getProperty("http.maxBackendRetries", "1"); mMaxRetries = Integer.parseInt(maxRetries); String followRedirects = LPS.getProperty("http.followRedirects", "0"); mFollowRedirects = Integer.parseInt(followRedirects); String timeout = LPS.getProperty("http.backendTimeout", "30000"); mTimeout = Integer.parseInt(timeout); timeout = LPS.getProperty("http.backendConnectionTimeout", timeout); mConnectionTimeout = Integer.parseInt(timeout); timeout = LPS.getProperty("http.connectionPoolTimeout", "0"); mConnectionPoolTimeout = Integer.parseInt(timeout); String useHttp11 = LPS.getProperty("http.useHttp11", "true"); mUseHttp11 = Boolean.valueOf(useHttp11).booleanValue(); if (mUseHttp11) { mLogger.info("using HTTP 1.1"); } else { mLogger.info("not using HTTP 1.1"); } } /** @return name of this datasource */ public String name() { return "http"; } /** * Do an HTTP Get/Post based on this request * * @return the data from this request * @param app absolute pathnane to app file * @param req request in progress (possibly null) * @param since this is the timestamp on the currently cached item; this time can be used as the * datasource sees fit (or ignored) in constructing the results. If the value is -1, assume * there is no currently cached item. */ public Data getData(String app, HttpServletRequest req, HttpServletResponse res, long since) throws DataSourceException, IOException { return getHTTPData(req, res, getURL(req), since); } public static Data getHTTPData( HttpServletRequest req, HttpServletResponse res, String surl, long since) throws DataSourceException, IOException { int tries = 1; // timeout msecs of time we're allowed in this routine // we must return or throw an exception. 0 means infinite. int timeout = mTimeout; if (req != null) { String timeoutParm = req.getParameter("timeout"); if (timeoutParm != null) { timeout = Integer.parseInt(timeoutParm); } } long t1 = System.currentTimeMillis(); long elapsed = 0; if (surl == null) { surl = getURL(req); } while (true) { String m = null; long tout; if (timeout > 0) { tout = timeout - elapsed; if (tout <= 0) { throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes=p[0] + " timed out" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-194", new Object[] {surl})); } } else { tout = 0; } try { HttpData data = getDataOnce(req, res, since, surl, 0, (int) tout); if (data.code >= 400) { data.release(); throw new DataSourceException(errorMessage(data.code)); } return data; } catch (HttpRecoverableException e) { // This type of exception should be retried. if (tries++ > mMaxRetries) { throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes="too many retries, exception: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-217", new Object[] {e.getMessage()})); } mLogger.warn( /* (non-Javadoc) * @i18n.test * @org-mes="retrying a recoverable exception: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-226", new Object[] {e.getMessage()})); } catch (HttpException e) { String msg = /* (non-Javadoc) * @i18n.test * @org-mes="HttpException: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-235", new Object[] {e.getMessage()}); throw new IOException( /* (non-Javadoc) * @i18n.test * @org-mes="HttpException: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-235", new Object[] {e.getMessage()})); } catch (IOException e) { try { Class ssle = Class.forName("javax.net.ssl.SSLException"); if (ssle.isAssignableFrom(e.getClass())) { throw new DataSourceException( /* (non-Javadoc) * @i18n.test * @org-mes="SSL exception: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-256", new Object[] {e.getMessage()})); } } catch (ClassNotFoundException cfne) { } throw e; } long t2 = System.currentTimeMillis(); elapsed = (t2 - t1); } } /** convenience routine missing from http library */ static boolean isRedirect(int rc) { return (rc == HttpStatus.SC_MOVED_PERMANENTLY || rc == HttpStatus.SC_MOVED_TEMPORARILY || rc == HttpStatus.SC_SEE_OTHER || rc == HttpStatus.SC_TEMPORARY_REDIRECT); } /** * @param since last modified time to use * @param req * @param url if null, ignored * @param redirCount number of redirs we've done */ public static HttpData getDataOnce( HttpServletRequest req, HttpServletResponse res, long since, String surl, int redirCount, int timeout) throws IOException, HttpException, DataSourceException, MalformedURLException { HttpMethodBase request = null; HostConfiguration hcfg = new HostConfiguration(); /* [todo hqm 2006-02-01] Anyone know why this code was here? It is setting the mime type to something which just confuses the DHTML parser. if (res != null) { res.setContentType("application/x-www-form-urlencoded;charset=UTF-8"); } */ try { // TODO: [2002-01-09 bloch] cope with cache-control // response headers (no-store, no-cache, must-revalidate, // proxy-revalidate). if (surl == null) { surl = getURL(req); } if (surl == null || surl.equals("")) { throw new MalformedURLException( /* (non-Javadoc) * @i18n.test * @org-mes="url is empty or null" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-312")); } String reqType = ""; String headers = ""; if (req != null) { reqType = req.getParameter("reqtype"); headers = req.getParameter("headers"); } boolean isPost = false; mLogger.debug("reqtype = " + reqType); if (reqType != null && reqType.equals("POST")) { request = new LZPostMethod(); request.setRequestHeader("Content-Type", "application/x-www-form-urlencoded;charset=UTF-8"); isPost = true; mLogger.debug("setting POST req method"); } else if (reqType != null && reqType.equals("PUT")) { request = new LZPutMethod(); // todo [hqm 2007] treat PUT like POST? isPost = true; mLogger.debug("setting PUT req method"); } else if (reqType != null && reqType.equals("DELETE")) { request = new LZDeleteMethod(); mLogger.debug("setting DELETE req method"); } else { mLogger.debug("setting GET (default) req method"); request = new LZGetMethod(); } request.setHttp11(mUseHttp11); // Proxy the request headers if (req != null) { LZHttpUtils.proxyRequestHeaders(req, request); } // Set headers from query string if (headers != null && headers.length() > 0) { StringTokenizer st = new StringTokenizer(headers, "\n"); while (st.hasMoreTokens()) { String h = st.nextToken(); int i = h.indexOf(":"); if (i > -1) { String n = h.substring(0, i); String v = h.substring(i + 2, h.length()); request.setRequestHeader(n, v); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="setting header " + p[0] + "=" + p[1] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-359", new Object[] {n, v})); } } } mLogger.debug("Parsing url"); URI uri = LZHttpUtils.newURI(surl); try { hcfg.setHost(uri); } catch (Exception e) { throw new MalformedURLException( /* (non-Javadoc) * @i18n.test * @org-mes="can't form uri from " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-376", new Object[] {surl})); } // This gets us the url-encoded (escaped) path and query string String path = uri.getEscapedPath(); String query = uri.getEscapedQuery(); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="encoded path: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-389", new Object[] {path})); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="encoded query: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-397", new Object[] {query})); // This call takes a decoded (unescaped) path request.setPath(path); boolean hasQuery = (query != null && query.length() > 0); String rawcontent = null; // Newer rawpost protocol puts lzpostbody as a separate // top level query arg in the request. rawcontent = req.getParameter("lzpostbody"); if (isPost) { // Older rawpost protocol put the "lzpostbody" arg // embedded in the "url" args's query args if (rawcontent == null && hasQuery) { rawcontent = findQueryArg("lzpostbody", query); } if (rawcontent != null) { // Get the unescaped query string ((EntityEnclosingMethod) request).setRequestBody(rawcontent); } else if (hasQuery) { StringTokenizer st = new StringTokenizer(query, "&"); while (st.hasMoreTokens()) { String it = st.nextToken(); int i = it.indexOf("="); if (i > 0) { String n = it.substring(0, i); String v = it.substring(i + 1, it.length()); // POST encodes values during request ((PostMethod) request).addParameter(n, URLDecoder.decode(v, "UTF-8")); } else { mLogger.warn( /* (non-Javadoc) * @i18n.test * @org-mes="ignoring bad token (missing '=' char) in query string: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-429", new Object[] {it})); } } } } else { // This call takes an encoded (escaped) query string request.setQueryString(query); } // Put in the If-Modified-Since headers if (since != -1) { String lms = LZHttpUtils.getDateString(since); request.setRequestHeader(LZHttpUtils.IF_MODIFIED_SINCE, lms); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="proxying lms: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-450", new Object[] {lms})); } mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="setting up http client" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-460")); HttpClient htc = null; if (mConnectionMgr != null) { htc = new HttpClient(mConnectionMgr); } else { htc = new HttpClient(); } htc.setHostConfiguration(hcfg); // This is the data timeout mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="timeout set to " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-478", new Object[] {new Integer(timeout)})); htc.setTimeout(timeout); // Set connection timeout the same htc.setConnectionTimeout(mConnectionTimeout); // Set timeout for getting a connection htc.setHttpConnectionFactoryTimeout(mConnectionPoolTimeout); // TODO: [2003-03-05 bloch] this should be more configurable (per app?) if (!isPost) { request.setFollowRedirects(mFollowRedirects > 0); } long t1 = System.currentTimeMillis(); mLogger.debug("starting remote request"); int rc = htc.executeMethod(hcfg, request); String status = HttpStatus.getStatusText(rc); if (status == null) { status = "" + rc; } mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="remote response status: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-504", new Object[] {status})); HttpData data = null; if (isRedirect(rc) && mFollowRedirects > redirCount) { String loc = request.getResponseHeader("Location").toString(); String hostURI = loc.substring(loc.indexOf(": ") + 2, loc.length()); mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="Following URL from redirect: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-517", new Object[] {hostURI})); long t2 = System.currentTimeMillis(); if (timeout > 0) { timeout -= (t2 - t1); if (timeout < 0) { throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes=p[0] + " timed out after redirecting to " + p[1] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-529", new Object[] {surl, loc})); } } data = getDataOnce(req, res, since, hostURI, redirCount++, timeout); } else { data = new HttpData(request, rc); } if (req != null && res != null) { // proxy response headers LZHttpUtils.proxyResponseHeaders(request, res, req.isSecure()); } return data; } catch (ConnectTimeoutException ce) { // Transduce to an InterrupedIOException, since lps takes these to be timeouts. if (request != null) { request.releaseConnection(); } throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes="connecting to " + p[0] + ":" + p[1] + " timed out beyond " + p[2] + " msecs." */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-557", new Object[] { hcfg.getHost(), new Integer(hcfg.getPort()), new Integer(mConnectionTimeout) })); } catch (HttpRecoverableException hre) { if (request != null) { request.releaseConnection(); } throw hre; } catch (HttpException e) { if (request != null) { request.releaseConnection(); } throw e; } catch (IOException ie) { if (request != null) { request.releaseConnection(); } throw ie; } catch (RuntimeException e) { if (request != null) { request.releaseConnection(); } throw e; } } /** utility */ private static String errorMessage(int code) { return /* (non-Javadoc) * @i18n.test * @org-mes="HTTP Status code: " + p[0] + ":" + p[1] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-592", new Object[] {new Integer(code), HttpStatus.getStatusText(code)}); } public static int getConnectionPoolTimeout() { return mConnectionPoolTimeout; } public static int getMaxTotalConnections() { return mMaxTotalConnections; } public static int getMaxConnectionsPerHost() { return mMaxConnectionsPerHost; } // Extract a urlencoded query arg value static String findQueryArg(String argname, String query) throws UnsupportedEncodingException { StringTokenizer st = new StringTokenizer(query, "&"); while (st.hasMoreTokens()) { String it = st.nextToken(); int i = it.indexOf("="); if (i > 0) { String n = it.substring(0, i); String v = it.substring(i + 1, it.length()); if (argname.equals(n)) { return URLDecoder.decode(v, "UTF-8"); } } } return null; } public static void main(String args[]) { HTTPDataSource ds = new HTTPDataSource(); try { if (args.length != 1 && args.length != 2) { throw new Exception( /* (non-Javadoc) * @i18n.test * @org-mes="Need an url" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-828")); } String surl = args[0]; FileOutputStream out = null; if (args.length == 2) { out = new FileOutputStream(args[1]); } System.out.println("url is " + surl); HttpData data = ds.getDataOnce(null, null, -1, surl, 0, 0); System.out.println("Response code: " + data.code); if (out != null) { FileUtils.send(data.getInputStream(), out); } data.release(); } catch (Exception e) { e.printStackTrace(); } } }
/** * @param since last modified time to use * @param req * @param url if null, ignored * @param redirCount number of redirs we've done */ public static HttpData getDataOnce( HttpServletRequest req, HttpServletResponse res, long since, String surl, int redirCount, int timeout) throws IOException, HttpException, DataSourceException, MalformedURLException { HttpMethodBase request = null; HostConfiguration hcfg = new HostConfiguration(); /* [todo hqm 2006-02-01] Anyone know why this code was here? It is setting the mime type to something which just confuses the DHTML parser. if (res != null) { res.setContentType("application/x-www-form-urlencoded;charset=UTF-8"); } */ try { // TODO: [2002-01-09 bloch] cope with cache-control // response headers (no-store, no-cache, must-revalidate, // proxy-revalidate). if (surl == null) { surl = getURL(req); } if (surl == null || surl.equals("")) { throw new MalformedURLException( /* (non-Javadoc) * @i18n.test * @org-mes="url is empty or null" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-312")); } String reqType = ""; String headers = ""; if (req != null) { reqType = req.getParameter("reqtype"); headers = req.getParameter("headers"); } boolean isPost = false; mLogger.debug("reqtype = " + reqType); if (reqType != null && reqType.equals("POST")) { request = new LZPostMethod(); request.setRequestHeader("Content-Type", "application/x-www-form-urlencoded;charset=UTF-8"); isPost = true; mLogger.debug("setting POST req method"); } else if (reqType != null && reqType.equals("PUT")) { request = new LZPutMethod(); // todo [hqm 2007] treat PUT like POST? isPost = true; mLogger.debug("setting PUT req method"); } else if (reqType != null && reqType.equals("DELETE")) { request = new LZDeleteMethod(); mLogger.debug("setting DELETE req method"); } else { mLogger.debug("setting GET (default) req method"); request = new LZGetMethod(); } request.setHttp11(mUseHttp11); // Proxy the request headers if (req != null) { LZHttpUtils.proxyRequestHeaders(req, request); } // Set headers from query string if (headers != null && headers.length() > 0) { StringTokenizer st = new StringTokenizer(headers, "\n"); while (st.hasMoreTokens()) { String h = st.nextToken(); int i = h.indexOf(":"); if (i > -1) { String n = h.substring(0, i); String v = h.substring(i + 2, h.length()); request.setRequestHeader(n, v); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="setting header " + p[0] + "=" + p[1] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-359", new Object[] {n, v})); } } } mLogger.debug("Parsing url"); URI uri = LZHttpUtils.newURI(surl); try { hcfg.setHost(uri); } catch (Exception e) { throw new MalformedURLException( /* (non-Javadoc) * @i18n.test * @org-mes="can't form uri from " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-376", new Object[] {surl})); } // This gets us the url-encoded (escaped) path and query string String path = uri.getEscapedPath(); String query = uri.getEscapedQuery(); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="encoded path: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-389", new Object[] {path})); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="encoded query: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-397", new Object[] {query})); // This call takes a decoded (unescaped) path request.setPath(path); boolean hasQuery = (query != null && query.length() > 0); String rawcontent = null; // Newer rawpost protocol puts lzpostbody as a separate // top level query arg in the request. rawcontent = req.getParameter("lzpostbody"); if (isPost) { // Older rawpost protocol put the "lzpostbody" arg // embedded in the "url" args's query args if (rawcontent == null && hasQuery) { rawcontent = findQueryArg("lzpostbody", query); } if (rawcontent != null) { // Get the unescaped query string ((EntityEnclosingMethod) request).setRequestBody(rawcontent); } else if (hasQuery) { StringTokenizer st = new StringTokenizer(query, "&"); while (st.hasMoreTokens()) { String it = st.nextToken(); int i = it.indexOf("="); if (i > 0) { String n = it.substring(0, i); String v = it.substring(i + 1, it.length()); // POST encodes values during request ((PostMethod) request).addParameter(n, URLDecoder.decode(v, "UTF-8")); } else { mLogger.warn( /* (non-Javadoc) * @i18n.test * @org-mes="ignoring bad token (missing '=' char) in query string: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-429", new Object[] {it})); } } } } else { // This call takes an encoded (escaped) query string request.setQueryString(query); } // Put in the If-Modified-Since headers if (since != -1) { String lms = LZHttpUtils.getDateString(since); request.setRequestHeader(LZHttpUtils.IF_MODIFIED_SINCE, lms); mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="proxying lms: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-450", new Object[] {lms})); } mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="setting up http client" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-460")); HttpClient htc = null; if (mConnectionMgr != null) { htc = new HttpClient(mConnectionMgr); } else { htc = new HttpClient(); } htc.setHostConfiguration(hcfg); // This is the data timeout mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="timeout set to " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-478", new Object[] {new Integer(timeout)})); htc.setTimeout(timeout); // Set connection timeout the same htc.setConnectionTimeout(mConnectionTimeout); // Set timeout for getting a connection htc.setHttpConnectionFactoryTimeout(mConnectionPoolTimeout); // TODO: [2003-03-05 bloch] this should be more configurable (per app?) if (!isPost) { request.setFollowRedirects(mFollowRedirects > 0); } long t1 = System.currentTimeMillis(); mLogger.debug("starting remote request"); int rc = htc.executeMethod(hcfg, request); String status = HttpStatus.getStatusText(rc); if (status == null) { status = "" + rc; } mLogger.debug( /* (non-Javadoc) * @i18n.test * @org-mes="remote response status: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-504", new Object[] {status})); HttpData data = null; if (isRedirect(rc) && mFollowRedirects > redirCount) { String loc = request.getResponseHeader("Location").toString(); String hostURI = loc.substring(loc.indexOf(": ") + 2, loc.length()); mLogger.info( /* (non-Javadoc) * @i18n.test * @org-mes="Following URL from redirect: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-517", new Object[] {hostURI})); long t2 = System.currentTimeMillis(); if (timeout > 0) { timeout -= (t2 - t1); if (timeout < 0) { throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes=p[0] + " timed out after redirecting to " + p[1] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-529", new Object[] {surl, loc})); } } data = getDataOnce(req, res, since, hostURI, redirCount++, timeout); } else { data = new HttpData(request, rc); } if (req != null && res != null) { // proxy response headers LZHttpUtils.proxyResponseHeaders(request, res, req.isSecure()); } return data; } catch (ConnectTimeoutException ce) { // Transduce to an InterrupedIOException, since lps takes these to be timeouts. if (request != null) { request.releaseConnection(); } throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes="connecting to " + p[0] + ":" + p[1] + " timed out beyond " + p[2] + " msecs." */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-557", new Object[] { hcfg.getHost(), new Integer(hcfg.getPort()), new Integer(mConnectionTimeout) })); } catch (HttpRecoverableException hre) { if (request != null) { request.releaseConnection(); } throw hre; } catch (HttpException e) { if (request != null) { request.releaseConnection(); } throw e; } catch (IOException ie) { if (request != null) { request.releaseConnection(); } throw ie; } catch (RuntimeException e) { if (request != null) { request.releaseConnection(); } throw e; } }
public static Data getHTTPData( HttpServletRequest req, HttpServletResponse res, String surl, long since) throws DataSourceException, IOException { int tries = 1; // timeout msecs of time we're allowed in this routine // we must return or throw an exception. 0 means infinite. int timeout = mTimeout; if (req != null) { String timeoutParm = req.getParameter("timeout"); if (timeoutParm != null) { timeout = Integer.parseInt(timeoutParm); } } long t1 = System.currentTimeMillis(); long elapsed = 0; if (surl == null) { surl = getURL(req); } while (true) { String m = null; long tout; if (timeout > 0) { tout = timeout - elapsed; if (tout <= 0) { throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes=p[0] + " timed out" */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-194", new Object[] {surl})); } } else { tout = 0; } try { HttpData data = getDataOnce(req, res, since, surl, 0, (int) tout); if (data.code >= 400) { data.release(); throw new DataSourceException(errorMessage(data.code)); } return data; } catch (HttpRecoverableException e) { // This type of exception should be retried. if (tries++ > mMaxRetries) { throw new InterruptedIOException( /* (non-Javadoc) * @i18n.test * @org-mes="too many retries, exception: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-217", new Object[] {e.getMessage()})); } mLogger.warn( /* (non-Javadoc) * @i18n.test * @org-mes="retrying a recoverable exception: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-226", new Object[] {e.getMessage()})); } catch (HttpException e) { String msg = /* (non-Javadoc) * @i18n.test * @org-mes="HttpException: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-235", new Object[] {e.getMessage()}); throw new IOException( /* (non-Javadoc) * @i18n.test * @org-mes="HttpException: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-235", new Object[] {e.getMessage()})); } catch (IOException e) { try { Class ssle = Class.forName("javax.net.ssl.SSLException"); if (ssle.isAssignableFrom(e.getClass())) { throw new DataSourceException( /* (non-Javadoc) * @i18n.test * @org-mes="SSL exception: " + p[0] */ org.openlaszlo.i18n.LaszloMessages.getMessage( HTTPDataSource.class.getName(), "051018-256", new Object[] {e.getMessage()})); } } catch (ClassNotFoundException cfne) { } throw e; } long t2 = System.currentTimeMillis(); elapsed = (t2 - t1); } }