/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.volley; import android.os.Handler; import android.os.Looper; import android.os.SystemClock; import com.android.volley.VolleyLog.MarkerLog; import java.io.UnsupportedEncodingException; import java.net.URLEncoder; import java.util.Collections; import java.util.Map; /** * Base class for all network requests. * * @param The type of parsed response this request expects. */ public abstract class Request implements Comparable> { /** Default encoding for POST parameters. See {@link #getPostParamsEncoding()}. */ private static final String DEFAULT_POST_PARAMS_ENCODING = "UTF-8"; /** An event log tracing the lifetime of this request; for debugging. */ private final MarkerLog mEventLog = MarkerLog.ENABLED ? new MarkerLog() : null; /** URL of this request. */ private final String mUrl; /** Listener interface for errors. */ private final Response.ErrorListener mErrorListener; /** Sequence number of this request, used to enforce FIFO ordering. */ private Integer mSequence; /** The request queue this request is associated with. */ private RequestQueue mRequestQueue; /** Whether or not responses to this request should be cached. */ private boolean mShouldCache = true; /** Whether or not this request has been canceled. */ private boolean mCanceled = false; /** Whether or not a response has been delivered for this request yet. */ private boolean mResponseDelivered = false; // A cheap variant of request tracing used to dump slow requests. private long mRequestBirthTime = 0; /** Threshold at which we should log the request (even when debug logging is not enabled). */ private static final long SLOW_REQUEST_THRESHOLD_MS = 3000; /** The retry policy for this request. */ private RetryPolicy mRetryPolicy; /** * When a request can be retrieved from cache but must be refreshed from * the network, the cache entry will be stored here so that in the event of * a "Not Modified" response, we can be sure it hasn't been evicted from cache. */ private Cache.Entry mCacheEntry = null; /** An opaque token tagging this request; used for bulk cancellation. */ private Object mTag; /** * Creates a new request with the given URL and error listener. Note that * the normal response listener is not provided here as delivery of responses * is provided by subclasses, who have a better idea of how to deliver an * already-parsed response. */ public Request(String url, Response.ErrorListener listener) { mUrl = url; mErrorListener = listener; setRetryPolicy(new DefaultRetryPolicy()); } /** * Set a tag on this request. Can be used to cancel all requests with this * tag by {@link RequestQueue#cancelAll(Object)}. */ public void setTag(Object tag) { mTag = tag; } /** * Returns this request's tag. * @see Request#setTag(Object) */ public Object getTag() { return mTag; } /** * Sets the retry policy for this request. */ public void setRetryPolicy(RetryPolicy retryPolicy) { mRetryPolicy = retryPolicy; } /** * Adds an event to this request's event log; for debugging. */ public void addMarker(String tag) { if (MarkerLog.ENABLED) { mEventLog.add(tag, Thread.currentThread().getId()); } else if (mRequestBirthTime == 0) { mRequestBirthTime = SystemClock.elapsedRealtime(); } } /** * Notifies the request queue that this request has finished (successfully or with error). * *

Also dumps all events from this request's event log; for debugging.

*/ void finish(final String tag) { if (mRequestQueue != null) { mRequestQueue.finish(this); } if (MarkerLog.ENABLED) { final long threadId = Thread.currentThread().getId(); if (Looper.myLooper() != Looper.getMainLooper()) { // If we finish marking off of the main thread, we need to // actually do it on the main thread to ensure correct ordering. Handler mainThread = new Handler(Looper.getMainLooper()); mainThread.post(new Runnable() { @Override public void run() { mEventLog.add(tag, threadId); mEventLog.finish(this.toString()); } }); return; } mEventLog.add(tag, threadId); mEventLog.finish(this.toString()); } else { long requestTime = SystemClock.elapsedRealtime() - mRequestBirthTime; if (requestTime >= SLOW_REQUEST_THRESHOLD_MS) { VolleyLog.d("%d ms: %s", requestTime, this.toString()); } } } /** * Associates this request with the given queue. The request queue will be notified when this * request has finished. */ public void setRequestQueue(RequestQueue requestQueue) { mRequestQueue = requestQueue; } /** * Sets the sequence number of this request. Used by {@link RequestQueue}. */ public final void setSequence(int sequence) { mSequence = sequence; } /** * Returns the sequence number of this request. */ public final int getSequence() { if (mSequence == null) { throw new IllegalStateException("getSequence called before setSequence"); } return mSequence; } /** * Returns the URL of this request. */ public String getUrl() { return mUrl; } /** * Returns the cache key for this request. By default, this is the URL. */ public String getCacheKey() { return getUrl(); } /** * Annotates this request with an entry retrieved for it from cache. * Used for cache coherency support. */ public void setCacheEntry(Cache.Entry entry) { mCacheEntry = entry; } /** * Returns the annotated cache entry, or null if there isn't one. */ public Cache.Entry getCacheEntry() { return mCacheEntry; } /** * Mark this request as canceled. No callback will be delivered. */ public void cancel() { mCanceled = true; } /** * Returns true if this request has been canceled. */ public boolean isCanceled() { return mCanceled; } /** * Returns a list of extra HTTP headers to go along with this request. Can * throw {@link AuthFailureError} as authentication may be required to * provide these values. * @throws AuthFailureError In the event of auth failure */ public Map getHeaders() throws AuthFailureError { return Collections.emptyMap(); } /** * Returns a Map of POST parameters to be used for this request, or null if * a simple GET should be used. Can throw {@link AuthFailureError} as * authentication may be required to provide these values. * *

Note that only one of getPostParams() and getPostBody() can return a non-null * value.

* @throws AuthFailureError In the event of auth failure */ protected Map getPostParams() throws AuthFailureError { return null; } /** * Returns which encoding should be used when converting POST parameters returned by * {@link #getPostParams()} into a raw POST body. * *

This controls both encodings: *

    *
  1. The string encoding used when converting parameter names and values into bytes prior * to URL encoding them.
    2. *
  2. The string encoding used when converting the URL encoded parameters into a raw * byte array.
    3. *
*/ protected String getPostParamsEncoding() { return DEFAULT_POST_PARAMS_ENCODING; } public String getPostBodyContentType() { return "application/x-www-form-urlencoded; charset=" + getPostParamsEncoding(); } /** * Returns the raw POST body to be sent. * * @throws AuthFailureError In the event of auth failure */ public byte[] getPostBody() throws AuthFailureError { Map postParams = getPostParams(); if (postParams != null && postParams.size() > 0) { return encodePostParameters(postParams, getPostParamsEncoding()); } return null; } /** * Converts postParams into an application/x-www-form-urlencoded encoded string. */ private byte[] encodePostParameters(Map postParams, String postParamsEncoding) { StringBuilder encodedParams = new StringBuilder(); try { for (Map.Entry entry : postParams.entrySet()) { encodedParams.append(URLEncoder.encode(entry.getKey(), postParamsEncoding)); encodedParams.append('='); encodedParams.append(URLEncoder.encode(entry.getValue(), postParamsEncoding)); encodedParams.append('&'); } return encodedParams.toString().getBytes(postParamsEncoding); } catch (UnsupportedEncodingException uee) { throw new RuntimeException("Encoding not supported: " + postParamsEncoding, uee); } } /** * Set whether or not responses to this request should be cached. */ public final void setShouldCache(boolean shouldCache) { mShouldCache = shouldCache; } /** * Returns true if responses to this request should be cached. */ public final boolean shouldCache() { return mShouldCache; } /** * Priority values. Requests will be processed from higher priorities to * lower priorities, in FIFO order. */ public enum Priority { LOW, NORMAL, HIGH, IMMEDIATE } /** * Returns the {@link Priority} of this request; {@link Priority#NORMAL} by default. */ public Priority getPriority() { return Priority.NORMAL; } /** * Returns the socket timeout in milliseconds per retry attempt. (This value can be changed * per retry attempt if a backoff is specified via backoffTimeout()). If there are no retry * attempts remaining, this will cause delivery of a {@link TimeoutError} error. */ public final int getTimeoutMs() { return mRetryPolicy.getCurrentTimeout(); } /** * Returns the retry policy that should be used for this request. */ public RetryPolicy getRetryPolicy() { return mRetryPolicy; } /** * Mark this request as having a response delivered on it. This can be used * later in the request's lifetime for suppressing identical responses. */ public void markDelivered() { mResponseDelivered = true; } /** * Returns true if this request has had a response delivered for it. */ public boolean hasHadResponseDelivered() { return mResponseDelivered; } /** * Subclasses must implement this to parse the raw network response * and return an appropriate response type. This method will be * called from a worker thread. The response will not be delivered * if you return null. * @param response Response from the network * @return The parsed response, or null in the case of an error */ abstract protected Response parseNetworkResponse(NetworkResponse response); /** * Subclasses can override this method to parse 'networkError' and return a more specific error. * *

The default implementation just returns the passed 'networkError'.

* * @param volleyError the error retrieved from the network * @return an NetworkError augmented with additional information */ protected VolleyError parseNetworkError(VolleyError volleyError) { return volleyError; } /** * Subclasses must implement this to perform delivery of the parsed * response to their listeners. The given response is guaranteed to * be non-null; responses that fail to parse are not delivered. * @param response The parsed response returned by * {@link #parseNetworkResponse(NetworkResponse)} */ abstract protected void deliverResponse(T response); /** * Delivers error message to the ErrorListener that the Request was * initialized with. * * @param error Error details */ public void deliverError(VolleyError error) { if (mErrorListener != null) { mErrorListener.onErrorResponse(error); } } /** * Our comparator sorts from high to low priority, and secondarily by * sequence number to provide FIFO ordering. */ @Override public int compareTo(Request other) { Priority left = this.getPriority(); Priority right = other.getPriority(); // High-priority requests are "lesser" so they are sorted to the front. // Equal priorities are sorted by sequence number to provide FIFO ordering. return left == right ? this.mSequence - other.mSequence : right.ordinal() - left.ordinal(); } @Override public String toString() { return (mCanceled ? "[X] " : "[ ] ") + getUrl() + " " + getPriority() + " " + mSequence; } }