@Test
public void testExecRequestPersistentConnection() throws Exception {
final HttpRoute route = new HttpRoute(target);
final HttpClientContext context = new HttpClientContext();
final HttpRequestWrapper request = HttpRequestWrapper.wrap(new HttpGet("http://bar/test"));
final HttpResponse response = new BasicHttpResponse(HttpVersion.HTTP_1_1, 200, "OK");
Mockito.when(managedConn.isOpen()).thenReturn(Boolean.TRUE);
Mockito.when(managedConn.isStale()).thenReturn(Boolean.FALSE);
Mockito.when(
requestExecutor.execute(
Mockito.same(request),
Mockito.<HttpClientConnection>any(),
Mockito.<HttpClientContext>any()))
.thenReturn(response);
Mockito.when(reuseStrategy.keepAlive(Mockito.same(response), Mockito.<HttpClientContext>any()))
.thenReturn(Boolean.TRUE);
Mockito.when(
keepAliveStrategy.getKeepAliveDuration(
Mockito.same(response), Mockito.<HttpClientContext>any()))
.thenReturn(678L);
final CloseableHttpResponse finalResponse =
mainClientExec.execute(route, request, context, execAware);
Mockito.verify(connManager).requestConnection(route, null);
Mockito.verify(connRequest).get(0, TimeUnit.MILLISECONDS);
Mockito.verify(requestExecutor, Mockito.times(1)).execute(request, managedConn, context);
Mockito.verify(connManager).releaseConnection(managedConn, null, 678L, TimeUnit.MILLISECONDS);
Mockito.verify(managedConn, Mockito.never()).close();
Assert.assertNotNull(finalResponse);
Assert.assertTrue(finalResponse instanceof HttpResponseProxy);
}
// non-javadoc, see interface ClientRequestDirector
public HttpResponse execute(HttpHost target, HttpRequest request, HttpContext context)
throws HttpException, IOException {
HttpRequest orig = request;
RequestWrapper origWrapper = wrapRequest(orig);
origWrapper.setParams(params);
HttpRoute origRoute = determineRoute(target, origWrapper, context);
RoutedRequest roureq = new RoutedRequest(origWrapper, origRoute);
long timeout = ConnManagerParams.getTimeout(params);
int execCount = 0;
boolean reuse = false;
HttpResponse response = null;
boolean done = false;
try {
while (!done) {
// In this loop, the RoutedRequest may be replaced by a
// followup request and route. The request and route passed
// in the method arguments will be replaced. The original
// request is still available in 'orig'.
RequestWrapper wrapper = roureq.getRequest();
HttpRoute route = roureq.getRoute();
// See if we have a user token bound to the execution context
Object userToken = context.getAttribute(ClientContext.USER_TOKEN);
// Allocate connection if needed
if (managedConn == null) {
ClientConnectionRequest connRequest = connManager.requestConnection(route, userToken);
if (orig instanceof AbortableHttpRequest) {
((AbortableHttpRequest) orig).setConnectionRequest(connRequest);
}
try {
managedConn = connRequest.getConnection(timeout, TimeUnit.MILLISECONDS);
} catch (InterruptedException interrupted) {
InterruptedIOException iox = new InterruptedIOException();
iox.initCause(interrupted);
throw iox;
}
if (HttpConnectionParams.isStaleCheckingEnabled(params)) {
// validate connection
this.log.debug("Stale connection check");
if (managedConn.isStale()) {
this.log.debug("Stale connection detected");
// BEGIN android-changed
try {
managedConn.close();
} catch (IOException ignored) {
// SSLSocket's will throw IOException
// because they can't send a "close
// notify" protocol message to the
// server. Just supresss any
// exceptions related to closing the
// stale connection.
}
// END android-changed
}
}
}
if (orig instanceof AbortableHttpRequest) {
((AbortableHttpRequest) orig).setReleaseTrigger(managedConn);
}
// Reopen connection if needed
if (!managedConn.isOpen()) {
managedConn.open(route, context, params);
}
// BEGIN android-added
else {
// b/3241899 set the per request timeout parameter on reused connections
managedConn.setSocketTimeout(HttpConnectionParams.getSoTimeout(params));
}
// END android-added
try {
establishRoute(route, context);
} catch (TunnelRefusedException ex) {
if (this.log.isDebugEnabled()) {
this.log.debug(ex.getMessage());
}
response = ex.getResponse();
break;
}
// Reset headers on the request wrapper
wrapper.resetHeaders();
// Re-write request URI if needed
rewriteRequestURI(wrapper, route);
// Use virtual host if set
target = (HttpHost) wrapper.getParams().getParameter(ClientPNames.VIRTUAL_HOST);
if (target == null) {
target = route.getTargetHost();
}
HttpHost proxy = route.getProxyHost();
// Populate the execution context
context.setAttribute(ExecutionContext.HTTP_TARGET_HOST, target);
context.setAttribute(ExecutionContext.HTTP_PROXY_HOST, proxy);
context.setAttribute(ExecutionContext.HTTP_CONNECTION, managedConn);
context.setAttribute(ClientContext.TARGET_AUTH_STATE, targetAuthState);
context.setAttribute(ClientContext.PROXY_AUTH_STATE, proxyAuthState);
// Run request protocol interceptors
requestExec.preProcess(wrapper, httpProcessor, context);
context.setAttribute(ExecutionContext.HTTP_REQUEST, wrapper);
boolean retrying = true;
while (retrying) {
// Increment total exec count (with redirects)
execCount++;
// Increment exec count for this particular request
wrapper.incrementExecCount();
if (wrapper.getExecCount() > 1 && !wrapper.isRepeatable()) {
throw new NonRepeatableRequestException(
"Cannot retry request " + "with a non-repeatable request entity");
}
try {
if (this.log.isDebugEnabled()) {
this.log.debug("Attempt " + execCount + " to execute request");
}
response = requestExec.execute(wrapper, managedConn, context);
retrying = false;
} catch (IOException ex) {
this.log.debug("Closing the connection.");
managedConn.close();
if (retryHandler.retryRequest(ex, execCount, context)) {
if (this.log.isInfoEnabled()) {
this.log.info(
"I/O exception ("
+ ex.getClass().getName()
+ ") caught when processing request: "
+ ex.getMessage());
}
if (this.log.isDebugEnabled()) {
this.log.debug(ex.getMessage(), ex);
}
this.log.info("Retrying request");
} else {
throw ex;
}
// If we have a direct route to the target host
// just re-open connection and re-try the request
if (route.getHopCount() == 1) {
this.log.debug("Reopening the direct connection.");
managedConn.open(route, context, params);
} else {
// otherwise give up
throw ex;
}
}
}
// Run response protocol interceptors
response.setParams(params);
requestExec.postProcess(response, httpProcessor, context);
// The connection is in or can be brought to a re-usable state.
reuse = reuseStrategy.keepAlive(response, context);
if (reuse) {
// Set the idle duration of this connection
long duration = keepAliveStrategy.getKeepAliveDuration(response, context);
managedConn.setIdleDuration(duration, TimeUnit.MILLISECONDS);
}
RoutedRequest followup = handleResponse(roureq, response, context);
if (followup == null) {
done = true;
} else {
if (reuse) {
this.log.debug("Connection kept alive");
// Make sure the response body is fully consumed, if present
HttpEntity entity = response.getEntity();
if (entity != null) {
entity.consumeContent();
}
// entity consumed above is not an auto-release entity,
// need to mark the connection re-usable explicitly
managedConn.markReusable();
} else {
managedConn.close();
}
// check if we can use the same connection for the followup
if (!followup.getRoute().equals(roureq.getRoute())) {
releaseConnection();
}
roureq = followup;
}
userToken = this.userTokenHandler.getUserToken(context);
context.setAttribute(ClientContext.USER_TOKEN, userToken);
if (managedConn != null) {
managedConn.setState(userToken);
}
} // while not done
// check for entity, release connection if possible
if ((response == null)
|| (response.getEntity() == null)
|| !response.getEntity().isStreaming()) {
// connection not needed and (assumed to be) in re-usable state
if (reuse) managedConn.markReusable();
releaseConnection();
} else {
// install an auto-release entity
HttpEntity entity = response.getEntity();
entity = new BasicManagedEntity(entity, managedConn, reuse);
response.setEntity(entity);
}
return response;
} catch (HttpException ex) {
abortConnection();
throw ex;
} catch (IOException ex) {
abortConnection();
throw ex;
} catch (RuntimeException ex) {
abortConnection();
throw ex;
}
} // execute