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1 /*
2  * Copyright (C) 2006 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 package android.content;
18 
19 import android.annotation.IntDef;
20 import android.annotation.SystemApi;
21 import android.net.Uri;
22 import android.os.Parcel;
23 import android.os.Parcelable;
24 import android.os.PatternMatcher;
25 import android.text.TextUtils;
26 import android.util.AndroidException;
27 import android.util.Log;
28 import android.util.Printer;
29 
30 import com.android.internal.util.XmlUtils;
31 
32 import org.xmlpull.v1.XmlPullParser;
33 import org.xmlpull.v1.XmlPullParserException;
34 import org.xmlpull.v1.XmlSerializer;
35 
36 import java.io.IOException;
37 import java.lang.annotation.Retention;
38 import java.lang.annotation.RetentionPolicy;
39 import java.util.ArrayList;
40 import java.util.Iterator;
41 import java.util.Set;
42 
43 /**
44  * Structured description of Intent values to be matched.  An IntentFilter can
45  * match against actions, categories, and data (either via its type, scheme,
46  * and/or path) in an Intent.  It also includes a "priority" value which is
47  * used to order multiple matching filters.
48  *
49  * <p>IntentFilter objects are often created in XML as part of a package's
50  * {@link android.R.styleable#AndroidManifest AndroidManifest.xml} file,
51  * using {@link android.R.styleable#AndroidManifestIntentFilter intent-filter}
52  * tags.
53  *
54  * <p>There are three Intent characteristics you can filter on: the
55  * <em>action</em>, <em>data</em>, and <em>categories</em>.  For each of these
56  * characteristics you can provide
57  * multiple possible matching values (via {@link #addAction},
58  * {@link #addDataType}, {@link #addDataScheme}, {@link #addDataSchemeSpecificPart},
59  * {@link #addDataAuthority}, {@link #addDataPath}, and {@link #addCategory}, respectively).
60  * For actions, the field
61  * will not be tested if no values have been given (treating it as a wildcard);
62  * if no data characteristics are specified, however, then the filter will
63  * only match intents that contain no data.
64  *
65  * <p>The data characteristic is
66  * itself divided into three attributes: type, scheme, authority, and path.
67  * Any that are
68  * specified must match the contents of the Intent.  If you specify a scheme
69  * but no type, only Intent that does not have a type (such as mailto:) will
70  * match; a content: URI will never match because they always have a MIME type
71  * that is supplied by their content provider.  Specifying a type with no scheme
72  * has somewhat special meaning: it will match either an Intent with no URI
73  * field, or an Intent with a content: or file: URI.  If you specify neither,
74  * then only an Intent with no data or type will match.  To specify an authority,
75  * you must also specify one or more schemes that it is associated with.
76  * To specify a path, you also must specify both one or more authorities and
77  * one or more schemes it is associated with.
78  *
79  * <div class="special reference">
80  * <h3>Developer Guides</h3>
81  * <p>For information about how to create and resolve intents, read the
82  * <a href="{@docRoot}guide/topics/intents/intents-filters.html">Intents and Intent Filters</a>
83  * developer guide.</p>
84  * </div>
85  *
86  * <h3>Filter Rules</h3>
87  * <p>A match is based on the following rules.  Note that
88  * for an IntentFilter to match an Intent, three conditions must hold:
89  * the <strong>action</strong> and <strong>category</strong> must match, and
90  * the data (both the <strong>data type</strong> and
91  * <strong>data scheme+authority+path</strong> if specified) must match
92  * (see {@link #match(ContentResolver, Intent, boolean, String)} for more details
93  * on how the data fields match).
94  *
95  * <p><strong>Action</strong> matches if any of the given values match the
96  * Intent action; if the filter specifies no actions, then it will only match
97  * Intents that do not contain an action.
98  *
99  * <p><strong>Data Type</strong> matches if any of the given values match the
100  * Intent type.  The Intent
101  * type is determined by calling {@link Intent#resolveType}.  A wildcard can be
102  * used for the MIME sub-type, in both the Intent and IntentFilter, so that the
103  * type "audio/*" will match "audio/mpeg", "audio/aiff", "audio/*", etc.
104  * <em>Note that MIME type matching here is <b>case sensitive</b>, unlike
105  * formal RFC MIME types!</em>  You should thus always use lower case letters
106  * for your MIME types.
107  *
108  * <p><strong>Data Scheme</strong> matches if any of the given values match the
109  * Intent data's scheme.
110  * The Intent scheme is determined by calling {@link Intent#getData}
111  * and {@link android.net.Uri#getScheme} on that URI.
112  * <em>Note that scheme matching here is <b>case sensitive</b>, unlike
113  * formal RFC schemes!</em>  You should thus always use lower case letters
114  * for your schemes.
115  *
116  * <p><strong>Data Scheme Specific Part</strong> matches if any of the given values match
117  * the Intent's data scheme specific part <em>and</em> one of the data schemes in the filter
118  * has matched the Intent, <em>or</em> no scheme specific parts were supplied in the filter.
119  * The Intent scheme specific part is determined by calling
120  * {@link Intent#getData} and {@link android.net.Uri#getSchemeSpecificPart} on that URI.
121  * <em>Note that scheme specific part matching is <b>case sensitive</b>.</em>
122  *
123  * <p><strong>Data Authority</strong> matches if any of the given values match
124  * the Intent's data authority <em>and</em> one of the data schemes in the filter
125  * has matched the Intent, <em>or</em> no authories were supplied in the filter.
126  * The Intent authority is determined by calling
127  * {@link Intent#getData} and {@link android.net.Uri#getAuthority} on that URI.
128  * <em>Note that authority matching here is <b>case sensitive</b>, unlike
129  * formal RFC host names!</em>  You should thus always use lower case letters
130  * for your authority.
131  *
132  * <p><strong>Data Path</strong> matches if any of the given values match the
133  * Intent's data path <em>and</em> both a scheme and authority in the filter
134  * has matched against the Intent, <em>or</em> no paths were supplied in the
135  * filter.  The Intent authority is determined by calling
136  * {@link Intent#getData} and {@link android.net.Uri#getPath} on that URI.
137  *
138  * <p><strong>Categories</strong> match if <em>all</em> of the categories in
139  * the Intent match categories given in the filter.  Extra categories in the
140  * filter that are not in the Intent will not cause the match to fail.  Note
141  * that unlike the action, an IntentFilter with no categories
142  * will only match an Intent that does not have any categories.
143  */
144 public class IntentFilter implements Parcelable {
145     private static final String AGLOB_STR = "aglob";
146     private static final String SGLOB_STR = "sglob";
147     private static final String PREFIX_STR = "prefix";
148     private static final String LITERAL_STR = "literal";
149     private static final String PATH_STR = "path";
150     private static final String PORT_STR = "port";
151     private static final String HOST_STR = "host";
152     private static final String AUTH_STR = "auth";
153     private static final String SSP_STR = "ssp";
154     private static final String SCHEME_STR = "scheme";
155     private static final String TYPE_STR = "type";
156     private static final String CAT_STR = "cat";
157     private static final String NAME_STR = "name";
158     private static final String ACTION_STR = "action";
159     private static final String AUTO_VERIFY_STR = "autoVerify";
160 
161     /**
162      * The filter {@link #setPriority} value at which system high-priority
163      * receivers are placed; that is, receivers that should execute before
164      * application code. Applications should never use filters with this or
165      * higher priorities.
166      *
167      * @see #setPriority
168      */
169     public static final int SYSTEM_HIGH_PRIORITY = 1000;
170 
171     /**
172      * The filter {@link #setPriority} value at which system low-priority
173      * receivers are placed; that is, receivers that should execute after
174      * application code. Applications should never use filters with this or
175      * lower priorities.
176      *
177      * @see #setPriority
178      */
179     public static final int SYSTEM_LOW_PRIORITY = -1000;
180 
181     /**
182      * The part of a match constant that describes the category of match
183      * that occurred.  May be either {@link #MATCH_CATEGORY_EMPTY},
184      * {@link #MATCH_CATEGORY_SCHEME}, {@link #MATCH_CATEGORY_SCHEME_SPECIFIC_PART},
185      * {@link #MATCH_CATEGORY_HOST}, {@link #MATCH_CATEGORY_PORT},
186      * {@link #MATCH_CATEGORY_PATH}, or {@link #MATCH_CATEGORY_TYPE}.  Higher
187      * values indicate a better match.
188      */
189     public static final int MATCH_CATEGORY_MASK = 0xfff0000;
190 
191     /**
192      * The part of a match constant that applies a quality adjustment to the
193      * basic category of match.  The value {@link #MATCH_ADJUSTMENT_NORMAL}
194      * is no adjustment; higher numbers than that improve the quality, while
195      * lower numbers reduce it.
196      */
197     public static final int MATCH_ADJUSTMENT_MASK = 0x000ffff;
198 
199     /**
200      * Quality adjustment applied to the category of match that signifies
201      * the default, base value; higher numbers improve the quality while
202      * lower numbers reduce it.
203      */
204     public static final int MATCH_ADJUSTMENT_NORMAL = 0x8000;
205 
206     /**
207      * The filter matched an intent that had no data specified.
208      */
209     public static final int MATCH_CATEGORY_EMPTY = 0x0100000;
210     /**
211      * The filter matched an intent with the same data URI scheme.
212      */
213     public static final int MATCH_CATEGORY_SCHEME = 0x0200000;
214     /**
215      * The filter matched an intent with the same data URI scheme and
216      * authority host.
217      */
218     public static final int MATCH_CATEGORY_HOST = 0x0300000;
219     /**
220      * The filter matched an intent with the same data URI scheme and
221      * authority host and port.
222      */
223     public static final int MATCH_CATEGORY_PORT = 0x0400000;
224     /**
225      * The filter matched an intent with the same data URI scheme,
226      * authority, and path.
227      */
228     public static final int MATCH_CATEGORY_PATH = 0x0500000;
229     /**
230      * The filter matched an intent with the same data URI scheme and
231      * scheme specific part.
232      */
233     public static final int MATCH_CATEGORY_SCHEME_SPECIFIC_PART = 0x0580000;
234     /**
235      * The filter matched an intent with the same data MIME type.
236      */
237     public static final int MATCH_CATEGORY_TYPE = 0x0600000;
238 
239     /**
240      * The filter didn't match due to different MIME types.
241      */
242     public static final int NO_MATCH_TYPE = -1;
243     /**
244      * The filter didn't match due to different data URIs.
245      */
246     public static final int NO_MATCH_DATA = -2;
247     /**
248      * The filter didn't match due to different actions.
249      */
250     public static final int NO_MATCH_ACTION = -3;
251     /**
252      * The filter didn't match because it required one or more categories
253      * that were not in the Intent.
254      */
255     public static final int NO_MATCH_CATEGORY = -4;
256 
257     /**
258      * HTTP scheme.
259      *
260      * @see #addDataScheme(String)
261      * @hide
262      */
263     public static final String SCHEME_HTTP = "http";
264     /**
265      * HTTPS scheme.
266      *
267      * @see #addDataScheme(String)
268      * @hide
269      */
270     public static final String SCHEME_HTTPS = "https";
271 
272     private int mPriority;
273     private int mOrder;
274     private final ArrayList<String> mActions;
275     private ArrayList<String> mCategories = null;
276     private ArrayList<String> mDataSchemes = null;
277     private ArrayList<PatternMatcher> mDataSchemeSpecificParts = null;
278     private ArrayList<AuthorityEntry> mDataAuthorities = null;
279     private ArrayList<PatternMatcher> mDataPaths = null;
280     private ArrayList<String> mDataTypes = null;
281     private boolean mHasPartialTypes = false;
282 
283     private static final int STATE_VERIFY_AUTO         = 0x00000001;
284     private static final int STATE_NEED_VERIFY         = 0x00000010;
285     private static final int STATE_NEED_VERIFY_CHECKED = 0x00000100;
286     private static final int STATE_VERIFIED            = 0x00001000;
287 
288     private int mVerifyState;
289     /** @hide */
290     public static final int VISIBILITY_NONE = 0;
291     /** @hide */
292     public static final int VISIBILITY_EXPLICIT = 1;
293     /** @hide */
294     public static final int VISIBILITY_IMPLICIT = 2;
295     /** @hide */
296     @IntDef(prefix = { "VISIBILITY_" }, value = {
297             VISIBILITY_NONE,
298             VISIBILITY_EXPLICIT,
299             VISIBILITY_IMPLICIT,
300     })
301     @Retention(RetentionPolicy.SOURCE)
302     public @interface InstantAppVisibility {}
303     /** Whether or not the intent filter is visible to instant apps. */
304     private @InstantAppVisibility int mInstantAppVisibility;
305     // These functions are the start of more optimized code for managing
306     // the string sets...  not yet implemented.
307 
findStringInSet(String[] set, String string, int[] lengths, int lenPos)308     private static int findStringInSet(String[] set, String string,
309             int[] lengths, int lenPos) {
310         if (set == null) return -1;
311         final int N = lengths[lenPos];
312         for (int i=0; i<N; i++) {
313             if (set[i].equals(string)) return i;
314         }
315         return -1;
316     }
317 
addStringToSet(String[] set, String string, int[] lengths, int lenPos)318     private static String[] addStringToSet(String[] set, String string,
319             int[] lengths, int lenPos) {
320         if (findStringInSet(set, string, lengths, lenPos) >= 0) return set;
321         if (set == null) {
322             set = new String[2];
323             set[0] = string;
324             lengths[lenPos] = 1;
325             return set;
326         }
327         final int N = lengths[lenPos];
328         if (N < set.length) {
329             set[N] = string;
330             lengths[lenPos] = N+1;
331             return set;
332         }
333 
334         String[] newSet = new String[(N*3)/2 + 2];
335         System.arraycopy(set, 0, newSet, 0, N);
336         set = newSet;
337         set[N] = string;
338         lengths[lenPos] = N+1;
339         return set;
340     }
341 
removeStringFromSet(String[] set, String string, int[] lengths, int lenPos)342     private static String[] removeStringFromSet(String[] set, String string,
343             int[] lengths, int lenPos) {
344         int pos = findStringInSet(set, string, lengths, lenPos);
345         if (pos < 0) return set;
346         final int N = lengths[lenPos];
347         if (N > (set.length/4)) {
348             int copyLen = N-(pos+1);
349             if (copyLen > 0) {
350                 System.arraycopy(set, pos+1, set, pos, copyLen);
351             }
352             set[N-1] = null;
353             lengths[lenPos] = N-1;
354             return set;
355         }
356 
357         String[] newSet = new String[set.length/3];
358         if (pos > 0) System.arraycopy(set, 0, newSet, 0, pos);
359         if ((pos+1) < N) System.arraycopy(set, pos+1, newSet, pos, N-(pos+1));
360         return newSet;
361     }
362 
363     /**
364      * This exception is thrown when a given MIME type does not have a valid
365      * syntax.
366      */
367     public static class MalformedMimeTypeException extends AndroidException {
MalformedMimeTypeException()368         public MalformedMimeTypeException() {
369         }
370 
MalformedMimeTypeException(String name)371         public MalformedMimeTypeException(String name) {
372             super(name);
373         }
374     }
375 
376     /**
377      * Create a new IntentFilter instance with a specified action and MIME
378      * type, where you know the MIME type is correctly formatted.  This catches
379      * the {@link MalformedMimeTypeException} exception that the constructor
380      * can call and turns it into a runtime exception.
381      *
382      * @param action The action to match, such as Intent.ACTION_VIEW.
383      * @param dataType The type to match, such as "vnd.android.cursor.dir/person".
384      *
385      * @return A new IntentFilter for the given action and type.
386      *
387      * @see #IntentFilter(String, String)
388      */
create(String action, String dataType)389     public static IntentFilter create(String action, String dataType) {
390         try {
391             return new IntentFilter(action, dataType);
392         } catch (MalformedMimeTypeException e) {
393             throw new RuntimeException("Bad MIME type", e);
394         }
395     }
396 
397     /**
398      * New empty IntentFilter.
399      */
IntentFilter()400     public IntentFilter() {
401         mPriority = 0;
402         mActions = new ArrayList<String>();
403     }
404 
405     /**
406      * New IntentFilter that matches a single action with no data.  If
407      * no data characteristics are subsequently specified, then the
408      * filter will only match intents that contain no data.
409      *
410      * @param action The action to match, such as Intent.ACTION_MAIN.
411      */
IntentFilter(String action)412     public IntentFilter(String action) {
413         mPriority = 0;
414         mActions = new ArrayList<String>();
415         addAction(action);
416     }
417 
418     /**
419      * New IntentFilter that matches a single action and data type.
420      *
421      * <p><em>Note: MIME type matching in the Android framework is
422      * case-sensitive, unlike formal RFC MIME types.  As a result,
423      * you should always write your MIME types with lower case letters,
424      * and any MIME types you receive from outside of Android should be
425      * converted to lower case before supplying them here.</em></p>
426      *
427      * <p>Throws {@link MalformedMimeTypeException} if the given MIME type is
428      * not syntactically correct.
429      *
430      * @param action The action to match, such as Intent.ACTION_VIEW.
431      * @param dataType The type to match, such as "vnd.android.cursor.dir/person".
432      *
433      */
IntentFilter(String action, String dataType)434     public IntentFilter(String action, String dataType)
435         throws MalformedMimeTypeException {
436         mPriority = 0;
437         mActions = new ArrayList<String>();
438         addAction(action);
439         addDataType(dataType);
440     }
441 
442     /**
443      * New IntentFilter containing a copy of an existing filter.
444      *
445      * @param o The original filter to copy.
446      */
IntentFilter(IntentFilter o)447     public IntentFilter(IntentFilter o) {
448         mPriority = o.mPriority;
449         mOrder = o.mOrder;
450         mActions = new ArrayList<String>(o.mActions);
451         if (o.mCategories != null) {
452             mCategories = new ArrayList<String>(o.mCategories);
453         }
454         if (o.mDataTypes != null) {
455             mDataTypes = new ArrayList<String>(o.mDataTypes);
456         }
457         if (o.mDataSchemes != null) {
458             mDataSchemes = new ArrayList<String>(o.mDataSchemes);
459         }
460         if (o.mDataSchemeSpecificParts != null) {
461             mDataSchemeSpecificParts = new ArrayList<PatternMatcher>(o.mDataSchemeSpecificParts);
462         }
463         if (o.mDataAuthorities != null) {
464             mDataAuthorities = new ArrayList<AuthorityEntry>(o.mDataAuthorities);
465         }
466         if (o.mDataPaths != null) {
467             mDataPaths = new ArrayList<PatternMatcher>(o.mDataPaths);
468         }
469         mHasPartialTypes = o.mHasPartialTypes;
470         mVerifyState = o.mVerifyState;
471         mInstantAppVisibility = o.mInstantAppVisibility;
472     }
473 
474     /**
475      * Modify priority of this filter.  This only affects receiver filters.
476      * The priority of activity filters are set in XML and cannot be changed
477      * programatically. The default priority is 0. Positive values will be
478      * before the default, lower values will be after it. Applications should
479      * use a value that is larger than {@link #SYSTEM_LOW_PRIORITY} and
480      * smaller than {@link #SYSTEM_HIGH_PRIORITY} .
481      *
482      * @param priority The new priority value.
483      *
484      * @see #getPriority
485      * @see #SYSTEM_LOW_PRIORITY
486      * @see #SYSTEM_HIGH_PRIORITY
487      */
setPriority(int priority)488     public final void setPriority(int priority) {
489         mPriority = priority;
490     }
491 
492     /**
493      * Return the priority of this filter.
494      *
495      * @return The priority of the filter.
496      *
497      * @see #setPriority
498      */
getPriority()499     public final int getPriority() {
500         return mPriority;
501     }
502 
503     /** @hide */
504     @SystemApi
setOrder(int order)505     public final void setOrder(int order) {
506         mOrder = order;
507     }
508 
509     /** @hide */
510     @SystemApi
getOrder()511     public final int getOrder() {
512         return mOrder;
513     }
514 
515     /**
516      * Set whether this filter will needs to be automatically verified against its data URIs or not.
517      * The default is false.
518      *
519      * The verification would need to happen only and only if the Intent action is
520      * {@link android.content.Intent#ACTION_VIEW} and the Intent category is
521      * {@link android.content.Intent#CATEGORY_BROWSABLE} and the Intent data scheme
522      * is "http" or "https".
523      *
524      * True means that the filter will need to use its data URIs to be verified.
525      *
526      * @param autoVerify The new autoVerify value.
527      *
528      * @see #getAutoVerify()
529      * @see #addAction(String)
530      * @see #getAction(int)
531      * @see #addCategory(String)
532      * @see #getCategory(int)
533      * @see #addDataScheme(String)
534      * @see #getDataScheme(int)
535      *
536      * @hide
537      */
setAutoVerify(boolean autoVerify)538     public final void setAutoVerify(boolean autoVerify) {
539         mVerifyState &= ~STATE_VERIFY_AUTO;
540         if (autoVerify) mVerifyState |= STATE_VERIFY_AUTO;
541     }
542 
543     /**
544      * Return if this filter will needs to be automatically verified again its data URIs or not.
545      *
546      * @return True if the filter will needs to be automatically verified. False otherwise.
547      *
548      * @see #setAutoVerify(boolean)
549      *
550      * @hide
551      */
getAutoVerify()552     public final boolean getAutoVerify() {
553         return ((mVerifyState & STATE_VERIFY_AUTO) == STATE_VERIFY_AUTO);
554     }
555 
556     /**
557      * Return if this filter handle all HTTP or HTTPS data URI or not.  This is the
558      * core check for whether a given activity qualifies as a "browser".
559      *
560      * @return True if the filter handle all HTTP or HTTPS data URI. False otherwise.
561      *
562      * This will check if:
563      *
564      * - either the Intent category is {@link android.content.Intent#CATEGORY_APP_BROWSER}
565      * - either the Intent action is {@link android.content.Intent#ACTION_VIEW} and
566      * the Intent category is {@link android.content.Intent#CATEGORY_BROWSABLE} and the Intent
567      * data scheme is "http" or "https" and that there is no specific host defined.
568      *
569      * @hide
570      */
handleAllWebDataURI()571     public final boolean handleAllWebDataURI() {
572         return hasCategory(Intent.CATEGORY_APP_BROWSER) ||
573                 (handlesWebUris(false) && countDataAuthorities() == 0);
574     }
575 
576     /**
577      * Return if this filter handles HTTP or HTTPS data URIs.
578      *
579      * @return True if the filter handles ACTION_VIEW/CATEGORY_BROWSABLE,
580      * has at least one HTTP or HTTPS data URI pattern defined, and optionally
581      * does not define any non-http/https data URI patterns.
582      *
583      * This will check if if the Intent action is {@link android.content.Intent#ACTION_VIEW} and
584      * the Intent category is {@link android.content.Intent#CATEGORY_BROWSABLE} and the Intent
585      * data scheme is "http" or "https".
586      *
587      * @param onlyWebSchemes When true, requires that the intent filter declare
588      *     that it handles *only* http: or https: schemes.  This is a requirement for
589      *     the intent filter's domain linkage being verifiable.
590      * @hide
591      */
handlesWebUris(boolean onlyWebSchemes)592     public final boolean handlesWebUris(boolean onlyWebSchemes) {
593         // Require ACTION_VIEW, CATEGORY_BROWSEABLE, and at least one scheme
594         if (!hasAction(Intent.ACTION_VIEW)
595             || !hasCategory(Intent.CATEGORY_BROWSABLE)
596             || mDataSchemes == null
597             || mDataSchemes.size() == 0) {
598             return false;
599         }
600 
601         // Now allow only the schemes "http" and "https"
602         final int N = mDataSchemes.size();
603         for (int i = 0; i < N; i++) {
604             final String scheme = mDataSchemes.get(i);
605             final boolean isWebScheme =
606                     SCHEME_HTTP.equals(scheme) || SCHEME_HTTPS.equals(scheme);
607             if (onlyWebSchemes) {
608                 // If we're specifically trying to ensure that there are no non-web schemes
609                 // declared in this filter, then if we ever see a non-http/https scheme then
610                 // we know it's a failure.
611                 if (!isWebScheme) {
612                     return false;
613                 }
614             } else {
615                 // If we see any http/https scheme declaration in this case then the
616                 // filter matches what we're looking for.
617                 if (isWebScheme) {
618                     return true;
619                 }
620             }
621         }
622 
623         // We get here if:
624         //   1) onlyWebSchemes and no non-web schemes were found, i.e success; or
625         //   2) !onlyWebSchemes and no http/https schemes were found, i.e. failure.
626         return onlyWebSchemes;
627     }
628 
629     /**
630      * Return if this filter needs to be automatically verified again its data URIs or not.
631      *
632      * @return True if the filter needs to be automatically verified. False otherwise.
633      *
634      * This will check if if the Intent action is {@link android.content.Intent#ACTION_VIEW} and
635      * the Intent category is {@link android.content.Intent#CATEGORY_BROWSABLE} and the Intent
636      * data scheme is "http" or "https".
637      *
638      * @see #setAutoVerify(boolean)
639      *
640      * @hide
641      */
needsVerification()642     public final boolean needsVerification() {
643         return getAutoVerify() && handlesWebUris(true);
644     }
645 
646     /**
647      * Return if this filter has been verified
648      *
649      * @return true if the filter has been verified or if autoVerify is false.
650      *
651      * @hide
652      */
isVerified()653     public final boolean isVerified() {
654         if ((mVerifyState & STATE_NEED_VERIFY_CHECKED) == STATE_NEED_VERIFY_CHECKED) {
655             return ((mVerifyState & STATE_NEED_VERIFY) == STATE_NEED_VERIFY);
656         }
657         return false;
658     }
659 
660     /**
661      * Set if this filter has been verified
662      *
663      * @param verified true if this filter has been verified. False otherwise.
664      *
665      * @hide
666      */
setVerified(boolean verified)667     public void setVerified(boolean verified) {
668         mVerifyState |= STATE_NEED_VERIFY_CHECKED;
669         mVerifyState &= ~STATE_VERIFIED;
670         if (verified) mVerifyState |= STATE_VERIFIED;
671     }
672 
673     /** @hide */
setVisibilityToInstantApp(@nstantAppVisibility int visibility)674     public void setVisibilityToInstantApp(@InstantAppVisibility int visibility) {
675         mInstantAppVisibility = visibility;
676     }
677     /** @hide */
getVisibilityToInstantApp()678     public @InstantAppVisibility int getVisibilityToInstantApp() {
679         return mInstantAppVisibility;
680     }
681     /** @hide */
isVisibleToInstantApp()682     public boolean isVisibleToInstantApp() {
683         return mInstantAppVisibility != VISIBILITY_NONE;
684     }
685     /** @hide */
isExplicitlyVisibleToInstantApp()686     public boolean isExplicitlyVisibleToInstantApp() {
687         return mInstantAppVisibility == VISIBILITY_EXPLICIT;
688     }
689     /** @hide */
isImplicitlyVisibleToInstantApp()690     public boolean isImplicitlyVisibleToInstantApp() {
691         return mInstantAppVisibility == VISIBILITY_IMPLICIT;
692     }
693 
694     /**
695      * Add a new Intent action to match against.  If any actions are included
696      * in the filter, then an Intent's action must be one of those values for
697      * it to match.  If no actions are included, the Intent action is ignored.
698      *
699      * @param action Name of the action to match, such as Intent.ACTION_VIEW.
700      */
addAction(String action)701     public final void addAction(String action) {
702         if (!mActions.contains(action)) {
703             mActions.add(action.intern());
704         }
705     }
706 
707     /**
708      * Return the number of actions in the filter.
709      */
countActions()710     public final int countActions() {
711         return mActions.size();
712     }
713 
714     /**
715      * Return an action in the filter.
716      */
getAction(int index)717     public final String getAction(int index) {
718         return mActions.get(index);
719     }
720 
721     /**
722      * Is the given action included in the filter?  Note that if the filter
723      * does not include any actions, false will <em>always</em> be returned.
724      *
725      * @param action The action to look for.
726      *
727      * @return True if the action is explicitly mentioned in the filter.
728      */
hasAction(String action)729     public final boolean hasAction(String action) {
730         return action != null && mActions.contains(action);
731     }
732 
733     /**
734      * Match this filter against an Intent's action.  If the filter does not
735      * specify any actions, the match will always fail.
736      *
737      * @param action The desired action to look for.
738      *
739      * @return True if the action is listed in the filter.
740      */
matchAction(String action)741     public final boolean matchAction(String action) {
742         return hasAction(action);
743     }
744 
745     /**
746      * Return an iterator over the filter's actions.  If there are no actions,
747      * returns null.
748      */
actionsIterator()749     public final Iterator<String> actionsIterator() {
750         return mActions != null ? mActions.iterator() : null;
751     }
752 
753     /**
754      * Add a new Intent data type to match against.  If any types are
755      * included in the filter, then an Intent's data must be <em>either</em>
756      * one of these types <em>or</em> a matching scheme.  If no data types
757      * are included, then an Intent will only match if it specifies no data.
758      *
759      * <p><em>Note: MIME type matching in the Android framework is
760      * case-sensitive, unlike formal RFC MIME types.  As a result,
761      * you should always write your MIME types with lower case letters,
762      * and any MIME types you receive from outside of Android should be
763      * converted to lower case before supplying them here.</em></p>
764      *
765      * <p>Throws {@link MalformedMimeTypeException} if the given MIME type is
766      * not syntactically correct.
767      *
768      * @param type Name of the data type to match, such as "vnd.android.cursor.dir/person".
769      *
770      * @see #matchData
771      */
addDataType(String type)772     public final void addDataType(String type)
773         throws MalformedMimeTypeException {
774         final int slashpos = type.indexOf('/');
775         final int typelen = type.length();
776         if (slashpos > 0 && typelen >= slashpos+2) {
777             if (mDataTypes == null) mDataTypes = new ArrayList<String>();
778             if (typelen == slashpos+2 && type.charAt(slashpos+1) == '*') {
779                 String str = type.substring(0, slashpos);
780                 if (!mDataTypes.contains(str)) {
781                     mDataTypes.add(str.intern());
782                 }
783                 mHasPartialTypes = true;
784             } else {
785                 if (!mDataTypes.contains(type)) {
786                     mDataTypes.add(type.intern());
787                 }
788             }
789             return;
790         }
791 
792         throw new MalformedMimeTypeException(type);
793     }
794 
795     /**
796      * Is the given data type included in the filter?  Note that if the filter
797      * does not include any type, false will <em>always</em> be returned.
798      *
799      * @param type The data type to look for.
800      *
801      * @return True if the type is explicitly mentioned in the filter.
802      */
hasDataType(String type)803     public final boolean hasDataType(String type) {
804         return mDataTypes != null && findMimeType(type);
805     }
806 
807     /** @hide */
hasExactDataType(String type)808     public final boolean hasExactDataType(String type) {
809         return mDataTypes != null && mDataTypes.contains(type);
810     }
811 
812     /**
813      * Return the number of data types in the filter.
814      */
countDataTypes()815     public final int countDataTypes() {
816         return mDataTypes != null ? mDataTypes.size() : 0;
817     }
818 
819     /**
820      * Return a data type in the filter.
821      */
getDataType(int index)822     public final String getDataType(int index) {
823         return mDataTypes.get(index);
824     }
825 
826     /**
827      * Return an iterator over the filter's data types.
828      */
typesIterator()829     public final Iterator<String> typesIterator() {
830         return mDataTypes != null ? mDataTypes.iterator() : null;
831     }
832 
833     /**
834      * Add a new Intent data scheme to match against.  If any schemes are
835      * included in the filter, then an Intent's data must be <em>either</em>
836      * one of these schemes <em>or</em> a matching data type.  If no schemes
837      * are included, then an Intent will match only if it includes no data.
838      *
839      * <p><em>Note: scheme matching in the Android framework is
840      * case-sensitive, unlike formal RFC schemes.  As a result,
841      * you should always write your schemes with lower case letters,
842      * and any schemes you receive from outside of Android should be
843      * converted to lower case before supplying them here.</em></p>
844      *
845      * @param scheme Name of the scheme to match, such as "http".
846      *
847      * @see #matchData
848      */
addDataScheme(String scheme)849     public final void addDataScheme(String scheme) {
850         if (mDataSchemes == null) mDataSchemes = new ArrayList<String>();
851         if (!mDataSchemes.contains(scheme)) {
852             mDataSchemes.add(scheme.intern());
853         }
854     }
855 
856     /**
857      * Return the number of data schemes in the filter.
858      */
countDataSchemes()859     public final int countDataSchemes() {
860         return mDataSchemes != null ? mDataSchemes.size() : 0;
861     }
862 
863     /**
864      * Return a data scheme in the filter.
865      */
getDataScheme(int index)866     public final String getDataScheme(int index) {
867         return mDataSchemes.get(index);
868     }
869 
870     /**
871      * Is the given data scheme included in the filter?  Note that if the
872      * filter does not include any scheme, false will <em>always</em> be
873      * returned.
874      *
875      * @param scheme The data scheme to look for.
876      *
877      * @return True if the scheme is explicitly mentioned in the filter.
878      */
hasDataScheme(String scheme)879     public final boolean hasDataScheme(String scheme) {
880         return mDataSchemes != null && mDataSchemes.contains(scheme);
881     }
882 
883     /**
884      * Return an iterator over the filter's data schemes.
885      */
schemesIterator()886     public final Iterator<String> schemesIterator() {
887         return mDataSchemes != null ? mDataSchemes.iterator() : null;
888     }
889 
890     /**
891      * This is an entry for a single authority in the Iterator returned by
892      * {@link #authoritiesIterator()}.
893      */
894     public final static class AuthorityEntry {
895         private final String mOrigHost;
896         private final String mHost;
897         private final boolean mWild;
898         private final int mPort;
899 
AuthorityEntry(String host, String port)900         public AuthorityEntry(String host, String port) {
901             mOrigHost = host;
902             mWild = host.length() > 0 && host.charAt(0) == '*';
903             mHost = mWild ? host.substring(1).intern() : host;
904             mPort = port != null ? Integer.parseInt(port) : -1;
905         }
906 
AuthorityEntry(Parcel src)907         AuthorityEntry(Parcel src) {
908             mOrigHost = src.readString();
909             mHost = src.readString();
910             mWild = src.readInt() != 0;
911             mPort = src.readInt();
912         }
913 
writeToParcel(Parcel dest)914         void writeToParcel(Parcel dest) {
915             dest.writeString(mOrigHost);
916             dest.writeString(mHost);
917             dest.writeInt(mWild ? 1 : 0);
918             dest.writeInt(mPort);
919         }
920 
getHost()921         public String getHost() {
922             return mOrigHost;
923         }
924 
getPort()925         public int getPort() {
926             return mPort;
927         }
928 
929         /** @hide */
match(AuthorityEntry other)930         public boolean match(AuthorityEntry other) {
931             if (mWild != other.mWild) {
932                 return false;
933             }
934             if (!mHost.equals(other.mHost)) {
935                 return false;
936             }
937             if (mPort != other.mPort) {
938                 return false;
939             }
940             return true;
941         }
942 
943         @Override
equals(Object obj)944         public boolean equals(Object obj) {
945             if (obj instanceof AuthorityEntry) {
946                 final AuthorityEntry other = (AuthorityEntry)obj;
947                 return match(other);
948             }
949             return false;
950         }
951 
952         /**
953          * Determine whether this AuthorityEntry matches the given data Uri.
954          * <em>Note that this comparison is case-sensitive, unlike formal
955          * RFC host names.  You thus should always normalize to lower-case.</em>
956          *
957          * @param data The Uri to match.
958          * @return Returns either {@link IntentFilter#NO_MATCH_DATA},
959          * {@link IntentFilter#MATCH_CATEGORY_PORT}, or
960          * {@link IntentFilter#MATCH_CATEGORY_HOST}.
961          */
match(Uri data)962         public int match(Uri data) {
963             String host = data.getHost();
964             if (host == null) {
965                 return NO_MATCH_DATA;
966             }
967             if (false) Log.v("IntentFilter",
968                     "Match host " + host + ": " + mHost);
969             if (mWild) {
970                 if (host.length() < mHost.length()) {
971                     return NO_MATCH_DATA;
972                 }
973                 host = host.substring(host.length()-mHost.length());
974             }
975             if (host.compareToIgnoreCase(mHost) != 0) {
976                 return NO_MATCH_DATA;
977             }
978             if (mPort >= 0) {
979                 if (mPort != data.getPort()) {
980                     return NO_MATCH_DATA;
981                 }
982                 return MATCH_CATEGORY_PORT;
983             }
984             return MATCH_CATEGORY_HOST;
985         }
986     }
987 
988     /**
989      * Add a new Intent data "scheme specific part" to match against.  The filter must
990      * include one or more schemes (via {@link #addDataScheme}) for the
991      * scheme specific part to be considered.  If any scheme specific parts are
992      * included in the filter, then an Intent's data must match one of
993      * them.  If no scheme specific parts are included, then only the scheme must match.
994      *
995      * <p>The "scheme specific part" that this matches against is the string returned
996      * by {@link android.net.Uri#getSchemeSpecificPart() Uri.getSchemeSpecificPart}.
997      * For Uris that contain a path, this kind of matching is not generally of interest,
998      * since {@link #addDataAuthority(String, String)} and
999      * {@link #addDataPath(String, int)} can provide a better mechanism for matching
1000      * them.  However, for Uris that do not contain a path, the authority and path
1001      * are empty, so this is the only way to match against the non-scheme part.</p>
1002      *
1003      * @param ssp Either a raw string that must exactly match the scheme specific part
1004      * path, or a simple pattern, depending on <var>type</var>.
1005      * @param type Determines how <var>ssp</var> will be compared to
1006      * determine a match: either {@link PatternMatcher#PATTERN_LITERAL},
1007      * {@link PatternMatcher#PATTERN_PREFIX}, or
1008      * {@link PatternMatcher#PATTERN_SIMPLE_GLOB}.
1009      *
1010      * @see #matchData
1011      * @see #addDataScheme
1012      */
addDataSchemeSpecificPart(String ssp, int type)1013     public final void addDataSchemeSpecificPart(String ssp, int type) {
1014         addDataSchemeSpecificPart(new PatternMatcher(ssp, type));
1015     }
1016 
1017     /** @hide */
addDataSchemeSpecificPart(PatternMatcher ssp)1018     public final void addDataSchemeSpecificPart(PatternMatcher ssp) {
1019         if (mDataSchemeSpecificParts == null) {
1020             mDataSchemeSpecificParts = new ArrayList<PatternMatcher>();
1021         }
1022         mDataSchemeSpecificParts.add(ssp);
1023     }
1024 
1025     /**
1026      * Return the number of data scheme specific parts in the filter.
1027      */
countDataSchemeSpecificParts()1028     public final int countDataSchemeSpecificParts() {
1029         return mDataSchemeSpecificParts != null ? mDataSchemeSpecificParts.size() : 0;
1030     }
1031 
1032     /**
1033      * Return a data scheme specific part in the filter.
1034      */
getDataSchemeSpecificPart(int index)1035     public final PatternMatcher getDataSchemeSpecificPart(int index) {
1036         return mDataSchemeSpecificParts.get(index);
1037     }
1038 
1039     /**
1040      * Is the given data scheme specific part included in the filter?  Note that if the
1041      * filter does not include any scheme specific parts, false will <em>always</em> be
1042      * returned.
1043      *
1044      * @param data The scheme specific part that is being looked for.
1045      *
1046      * @return Returns true if the data string matches a scheme specific part listed in the
1047      *         filter.
1048      */
hasDataSchemeSpecificPart(String data)1049     public final boolean hasDataSchemeSpecificPart(String data) {
1050         if (mDataSchemeSpecificParts == null) {
1051             return false;
1052         }
1053         final int numDataSchemeSpecificParts = mDataSchemeSpecificParts.size();
1054         for (int i = 0; i < numDataSchemeSpecificParts; i++) {
1055             final PatternMatcher pe = mDataSchemeSpecificParts.get(i);
1056             if (pe.match(data)) {
1057                 return true;
1058             }
1059         }
1060         return false;
1061     }
1062 
1063     /** @hide */
hasDataSchemeSpecificPart(PatternMatcher ssp)1064     public final boolean hasDataSchemeSpecificPart(PatternMatcher ssp) {
1065         if (mDataSchemeSpecificParts == null) {
1066             return false;
1067         }
1068         final int numDataSchemeSpecificParts = mDataSchemeSpecificParts.size();
1069         for (int i = 0; i < numDataSchemeSpecificParts; i++) {
1070             final PatternMatcher pe = mDataSchemeSpecificParts.get(i);
1071             if (pe.getType() == ssp.getType() && pe.getPath().equals(ssp.getPath())) {
1072                 return true;
1073             }
1074         }
1075         return false;
1076     }
1077 
1078     /**
1079      * Return an iterator over the filter's data scheme specific parts.
1080      */
schemeSpecificPartsIterator()1081     public final Iterator<PatternMatcher> schemeSpecificPartsIterator() {
1082         return mDataSchemeSpecificParts != null ? mDataSchemeSpecificParts.iterator() : null;
1083     }
1084 
1085     /**
1086      * Add a new Intent data authority to match against.  The filter must
1087      * include one or more schemes (via {@link #addDataScheme}) for the
1088      * authority to be considered.  If any authorities are
1089      * included in the filter, then an Intent's data must match one of
1090      * them.  If no authorities are included, then only the scheme must match.
1091      *
1092      * <p><em>Note: host name in the Android framework is
1093      * case-sensitive, unlike formal RFC host names.  As a result,
1094      * you should always write your host names with lower case letters,
1095      * and any host names you receive from outside of Android should be
1096      * converted to lower case before supplying them here.</em></p>
1097      *
1098      * @param host The host part of the authority to match.  May start with a
1099      *             single '*' to wildcard the front of the host name.
1100      * @param port Optional port part of the authority to match.  If null, any
1101      *             port is allowed.
1102      *
1103      * @see #matchData
1104      * @see #addDataScheme
1105      */
addDataAuthority(String host, String port)1106     public final void addDataAuthority(String host, String port) {
1107         if (port != null) port = port.intern();
1108         addDataAuthority(new AuthorityEntry(host.intern(), port));
1109     }
1110 
1111     /** @hide */
addDataAuthority(AuthorityEntry ent)1112     public final void addDataAuthority(AuthorityEntry ent) {
1113         if (mDataAuthorities == null) mDataAuthorities =
1114                 new ArrayList<AuthorityEntry>();
1115         mDataAuthorities.add(ent);
1116     }
1117 
1118     /**
1119      * Return the number of data authorities in the filter.
1120      */
countDataAuthorities()1121     public final int countDataAuthorities() {
1122         return mDataAuthorities != null ? mDataAuthorities.size() : 0;
1123     }
1124 
1125     /**
1126      * Return a data authority in the filter.
1127      */
getDataAuthority(int index)1128     public final AuthorityEntry getDataAuthority(int index) {
1129         return mDataAuthorities.get(index);
1130     }
1131 
1132     /**
1133      * Is the given data authority included in the filter?  Note that if the
1134      * filter does not include any authorities, false will <em>always</em> be
1135      * returned.
1136      *
1137      * @param data The data whose authority is being looked for.
1138      *
1139      * @return Returns true if the data string matches an authority listed in the
1140      *         filter.
1141      */
hasDataAuthority(Uri data)1142     public final boolean hasDataAuthority(Uri data) {
1143         return matchDataAuthority(data) >= 0;
1144     }
1145 
1146     /** @hide */
hasDataAuthority(AuthorityEntry auth)1147     public final boolean hasDataAuthority(AuthorityEntry auth) {
1148         if (mDataAuthorities == null) {
1149             return false;
1150         }
1151         final int numDataAuthorities = mDataAuthorities.size();
1152         for (int i = 0; i < numDataAuthorities; i++) {
1153             if (mDataAuthorities.get(i).match(auth)) {
1154                 return true;
1155             }
1156         }
1157         return false;
1158     }
1159 
1160     /**
1161      * Return an iterator over the filter's data authorities.
1162      */
authoritiesIterator()1163     public final Iterator<AuthorityEntry> authoritiesIterator() {
1164         return mDataAuthorities != null ? mDataAuthorities.iterator() : null;
1165     }
1166 
1167     /**
1168      * Add a new Intent data path to match against.  The filter must
1169      * include one or more schemes (via {@link #addDataScheme}) <em>and</em>
1170      * one or more authorities (via {@link #addDataAuthority}) for the
1171      * path to be considered.  If any paths are
1172      * included in the filter, then an Intent's data must match one of
1173      * them.  If no paths are included, then only the scheme/authority must
1174      * match.
1175      *
1176      * <p>The path given here can either be a literal that must directly
1177      * match or match against a prefix, or it can be a simple globbing pattern.
1178      * If the latter, you can use '*' anywhere in the pattern to match zero
1179      * or more instances of the previous character, '.' as a wildcard to match
1180      * any character, and '\' to escape the next character.
1181      *
1182      * @param path Either a raw string that must exactly match the file
1183      * path, or a simple pattern, depending on <var>type</var>.
1184      * @param type Determines how <var>path</var> will be compared to
1185      * determine a match: either {@link PatternMatcher#PATTERN_LITERAL},
1186      * {@link PatternMatcher#PATTERN_PREFIX}, or
1187      * {@link PatternMatcher#PATTERN_SIMPLE_GLOB}.
1188      *
1189      * @see #matchData
1190      * @see #addDataScheme
1191      * @see #addDataAuthority
1192      */
addDataPath(String path, int type)1193     public final void addDataPath(String path, int type) {
1194         addDataPath(new PatternMatcher(path.intern(), type));
1195     }
1196 
1197     /** @hide */
addDataPath(PatternMatcher path)1198     public final void addDataPath(PatternMatcher path) {
1199         if (mDataPaths == null) mDataPaths = new ArrayList<PatternMatcher>();
1200         mDataPaths.add(path);
1201     }
1202 
1203     /**
1204      * Return the number of data paths in the filter.
1205      */
countDataPaths()1206     public final int countDataPaths() {
1207         return mDataPaths != null ? mDataPaths.size() : 0;
1208     }
1209 
1210     /**
1211      * Return a data path in the filter.
1212      */
getDataPath(int index)1213     public final PatternMatcher getDataPath(int index) {
1214         return mDataPaths.get(index);
1215     }
1216 
1217     /**
1218      * Is the given data path included in the filter?  Note that if the
1219      * filter does not include any paths, false will <em>always</em> be
1220      * returned.
1221      *
1222      * @param data The data path to look for.  This is without the scheme
1223      *             prefix.
1224      *
1225      * @return True if the data string matches a path listed in the
1226      *         filter.
1227      */
hasDataPath(String data)1228     public final boolean hasDataPath(String data) {
1229         if (mDataPaths == null) {
1230             return false;
1231         }
1232         final int numDataPaths = mDataPaths.size();
1233         for (int i = 0; i < numDataPaths; i++) {
1234             final PatternMatcher pe = mDataPaths.get(i);
1235             if (pe.match(data)) {
1236                 return true;
1237             }
1238         }
1239         return false;
1240     }
1241 
1242     /** @hide */
hasDataPath(PatternMatcher path)1243     public final boolean hasDataPath(PatternMatcher path) {
1244         if (mDataPaths == null) {
1245             return false;
1246         }
1247         final int numDataPaths = mDataPaths.size();
1248         for (int i = 0; i < numDataPaths; i++) {
1249             final PatternMatcher pe = mDataPaths.get(i);
1250             if (pe.getType() == path.getType() && pe.getPath().equals(path.getPath())) {
1251                 return true;
1252             }
1253         }
1254         return false;
1255     }
1256 
1257     /**
1258      * Return an iterator over the filter's data paths.
1259      */
pathsIterator()1260     public final Iterator<PatternMatcher> pathsIterator() {
1261         return mDataPaths != null ? mDataPaths.iterator() : null;
1262     }
1263 
1264     /**
1265      * Match this intent filter against the given Intent data.  This ignores
1266      * the data scheme -- unlike {@link #matchData}, the authority will match
1267      * regardless of whether there is a matching scheme.
1268      *
1269      * @param data The data whose authority is being looked for.
1270      *
1271      * @return Returns either {@link #MATCH_CATEGORY_HOST},
1272      * {@link #MATCH_CATEGORY_PORT}, {@link #NO_MATCH_DATA}.
1273      */
matchDataAuthority(Uri data)1274     public final int matchDataAuthority(Uri data) {
1275         if (mDataAuthorities == null || data == null) {
1276             return NO_MATCH_DATA;
1277         }
1278         final int numDataAuthorities = mDataAuthorities.size();
1279         for (int i = 0; i < numDataAuthorities; i++) {
1280             final AuthorityEntry ae = mDataAuthorities.get(i);
1281             int match = ae.match(data);
1282             if (match >= 0) {
1283                 return match;
1284             }
1285         }
1286         return NO_MATCH_DATA;
1287     }
1288 
1289     /**
1290      * Match this filter against an Intent's data (type, scheme and path). If
1291      * the filter does not specify any types and does not specify any
1292      * schemes/paths, the match will only succeed if the intent does not
1293      * also specify a type or data.  If the filter does not specify any schemes,
1294      * it will implicitly match intents with no scheme, or the schemes "content:"
1295      * or "file:" (basically performing a MIME-type only match).  If the filter
1296      * does not specify any MIME types, the Intent also must not specify a MIME
1297      * type.
1298      *
1299      * <p>Be aware that to match against an authority, you must also specify a base
1300      * scheme the authority is in.  To match against a data path, both a scheme
1301      * and authority must be specified.  If the filter does not specify any
1302      * types or schemes that it matches against, it is considered to be empty
1303      * (any authority or data path given is ignored, as if it were empty as
1304      * well).
1305      *
1306      * <p><em>Note: MIME type, Uri scheme, and host name matching in the
1307      * Android framework is case-sensitive, unlike the formal RFC definitions.
1308      * As a result, you should always write these elements with lower case letters,
1309      * and normalize any MIME types or Uris you receive from
1310      * outside of Android to ensure these elements are lower case before
1311      * supplying them here.</em></p>
1312      *
1313      * @param type The desired data type to look for, as returned by
1314      *             Intent.resolveType().
1315      * @param scheme The desired data scheme to look for, as returned by
1316      *               Intent.getScheme().
1317      * @param data The full data string to match against, as supplied in
1318      *             Intent.data.
1319      *
1320      * @return Returns either a valid match constant (a combination of
1321      * {@link #MATCH_CATEGORY_MASK} and {@link #MATCH_ADJUSTMENT_MASK}),
1322      * or one of the error codes {@link #NO_MATCH_TYPE} if the type didn't match
1323      * or {@link #NO_MATCH_DATA} if the scheme/path didn't match.
1324      *
1325      * @see #match
1326      */
matchData(String type, String scheme, Uri data)1327     public final int matchData(String type, String scheme, Uri data) {
1328         final ArrayList<String> types = mDataTypes;
1329         final ArrayList<String> schemes = mDataSchemes;
1330 
1331         int match = MATCH_CATEGORY_EMPTY;
1332 
1333         if (types == null && schemes == null) {
1334             return ((type == null && data == null)
1335                 ? (MATCH_CATEGORY_EMPTY+MATCH_ADJUSTMENT_NORMAL) : NO_MATCH_DATA);
1336         }
1337 
1338         if (schemes != null) {
1339             if (schemes.contains(scheme != null ? scheme : "")) {
1340                 match = MATCH_CATEGORY_SCHEME;
1341             } else {
1342                 return NO_MATCH_DATA;
1343             }
1344 
1345             final ArrayList<PatternMatcher> schemeSpecificParts = mDataSchemeSpecificParts;
1346             if (schemeSpecificParts != null && data != null) {
1347                 match = hasDataSchemeSpecificPart(data.getSchemeSpecificPart())
1348                         ? MATCH_CATEGORY_SCHEME_SPECIFIC_PART : NO_MATCH_DATA;
1349             }
1350             if (match != MATCH_CATEGORY_SCHEME_SPECIFIC_PART) {
1351                 // If there isn't any matching ssp, we need to match an authority.
1352                 final ArrayList<AuthorityEntry> authorities = mDataAuthorities;
1353                 if (authorities != null) {
1354                     int authMatch = matchDataAuthority(data);
1355                     if (authMatch >= 0) {
1356                         final ArrayList<PatternMatcher> paths = mDataPaths;
1357                         if (paths == null) {
1358                             match = authMatch;
1359                         } else if (hasDataPath(data.getPath())) {
1360                             match = MATCH_CATEGORY_PATH;
1361                         } else {
1362                             return NO_MATCH_DATA;
1363                         }
1364                     } else {
1365                         return NO_MATCH_DATA;
1366                     }
1367                 }
1368             }
1369             // If neither an ssp nor an authority matched, we're done.
1370             if (match == NO_MATCH_DATA) {
1371                 return NO_MATCH_DATA;
1372             }
1373         } else {
1374             // Special case: match either an Intent with no data URI,
1375             // or with a scheme: URI.  This is to give a convenience for
1376             // the common case where you want to deal with data in a
1377             // content provider, which is done by type, and we don't want
1378             // to force everyone to say they handle content: or file: URIs.
1379             if (scheme != null && !"".equals(scheme)
1380                     && !"content".equals(scheme)
1381                     && !"file".equals(scheme)) {
1382                 return NO_MATCH_DATA;
1383             }
1384         }
1385 
1386         if (types != null) {
1387             if (findMimeType(type)) {
1388                 match = MATCH_CATEGORY_TYPE;
1389             } else {
1390                 return NO_MATCH_TYPE;
1391             }
1392         } else {
1393             // If no MIME types are specified, then we will only match against
1394             // an Intent that does not have a MIME type.
1395             if (type != null) {
1396                 return NO_MATCH_TYPE;
1397             }
1398         }
1399 
1400         return match + MATCH_ADJUSTMENT_NORMAL;
1401     }
1402 
1403     /**
1404      * Add a new Intent category to match against.  The semantics of
1405      * categories is the opposite of actions -- an Intent includes the
1406      * categories that it requires, all of which must be included in the
1407      * filter in order to match.  In other words, adding a category to the
1408      * filter has no impact on matching unless that category is specified in
1409      * the intent.
1410      *
1411      * @param category Name of category to match, such as Intent.CATEGORY_EMBED.
1412      */
addCategory(String category)1413     public final void addCategory(String category) {
1414         if (mCategories == null) mCategories = new ArrayList<String>();
1415         if (!mCategories.contains(category)) {
1416             mCategories.add(category.intern());
1417         }
1418     }
1419 
1420     /**
1421      * Return the number of categories in the filter.
1422      */
countCategories()1423     public final int countCategories() {
1424         return mCategories != null ? mCategories.size() : 0;
1425     }
1426 
1427     /**
1428      * Return a category in the filter.
1429      */
getCategory(int index)1430     public final String getCategory(int index) {
1431         return mCategories.get(index);
1432     }
1433 
1434     /**
1435      * Is the given category included in the filter?
1436      *
1437      * @param category The category that the filter supports.
1438      *
1439      * @return True if the category is explicitly mentioned in the filter.
1440      */
hasCategory(String category)1441     public final boolean hasCategory(String category) {
1442         return mCategories != null && mCategories.contains(category);
1443     }
1444 
1445     /**
1446      * Return an iterator over the filter's categories.
1447      *
1448      * @return Iterator if this filter has categories or {@code null} if none.
1449      */
categoriesIterator()1450     public final Iterator<String> categoriesIterator() {
1451         return mCategories != null ? mCategories.iterator() : null;
1452     }
1453 
1454     /**
1455      * Match this filter against an Intent's categories.  Each category in
1456      * the Intent must be specified by the filter; if any are not in the
1457      * filter, the match fails.
1458      *
1459      * @param categories The categories included in the intent, as returned by
1460      *                   Intent.getCategories().
1461      *
1462      * @return If all categories match (success), null; else the name of the
1463      *         first category that didn't match.
1464      */
matchCategories(Set<String> categories)1465     public final String matchCategories(Set<String> categories) {
1466         if (categories == null) {
1467             return null;
1468         }
1469 
1470         Iterator<String> it = categories.iterator();
1471 
1472         if (mCategories == null) {
1473             return it.hasNext() ? it.next() : null;
1474         }
1475 
1476         while (it.hasNext()) {
1477             final String category = it.next();
1478             if (!mCategories.contains(category)) {
1479                 return category;
1480             }
1481         }
1482 
1483         return null;
1484     }
1485 
1486     /**
1487      * Test whether this filter matches the given <var>intent</var>.
1488      *
1489      * @param intent The Intent to compare against.
1490      * @param resolve If true, the intent's type will be resolved by calling
1491      *                Intent.resolveType(); otherwise a simple match against
1492      *                Intent.type will be performed.
1493      * @param logTag Tag to use in debugging messages.
1494      *
1495      * @return Returns either a valid match constant (a combination of
1496      * {@link #MATCH_CATEGORY_MASK} and {@link #MATCH_ADJUSTMENT_MASK}),
1497      * or one of the error codes {@link #NO_MATCH_TYPE} if the type didn't match,
1498      * {@link #NO_MATCH_DATA} if the scheme/path didn't match,
1499      * {@link #NO_MATCH_ACTION} if the action didn't match, or
1500      * {@link #NO_MATCH_CATEGORY} if one or more categories didn't match.
1501      *
1502      * @see #match(String, String, String, android.net.Uri , Set, String)
1503      */
match(ContentResolver resolver, Intent intent, boolean resolve, String logTag)1504     public final int match(ContentResolver resolver, Intent intent,
1505             boolean resolve, String logTag) {
1506         String type = resolve ? intent.resolveType(resolver) : intent.getType();
1507         return match(intent.getAction(), type, intent.getScheme(),
1508                      intent.getData(), intent.getCategories(), logTag);
1509     }
1510 
1511     /**
1512      * Test whether this filter matches the given intent data.  A match is
1513      * only successful if the actions and categories in the Intent match
1514      * against the filter, as described in {@link IntentFilter}; in that case,
1515      * the match result returned will be as per {@link #matchData}.
1516      *
1517      * @param action The intent action to match against (Intent.getAction).
1518      * @param type The intent type to match against (Intent.resolveType()).
1519      * @param scheme The data scheme to match against (Intent.getScheme()).
1520      * @param data The data URI to match against (Intent.getData()).
1521      * @param categories The categories to match against
1522      *                   (Intent.getCategories()).
1523      * @param logTag Tag to use in debugging messages.
1524      *
1525      * @return Returns either a valid match constant (a combination of
1526      * {@link #MATCH_CATEGORY_MASK} and {@link #MATCH_ADJUSTMENT_MASK}),
1527      * or one of the error codes {@link #NO_MATCH_TYPE} if the type didn't match,
1528      * {@link #NO_MATCH_DATA} if the scheme/path didn't match,
1529      * {@link #NO_MATCH_ACTION} if the action didn't match, or
1530      * {@link #NO_MATCH_CATEGORY} if one or more categories didn't match.
1531      *
1532      * @see #matchData
1533      * @see Intent#getAction
1534      * @see Intent#resolveType
1535      * @see Intent#getScheme
1536      * @see Intent#getData
1537      * @see Intent#getCategories
1538      */
match(String action, String type, String scheme, Uri data, Set<String> categories, String logTag)1539     public final int match(String action, String type, String scheme,
1540             Uri data, Set<String> categories, String logTag) {
1541         if (action != null && !matchAction(action)) {
1542             if (false) Log.v(
1543                 logTag, "No matching action " + action + " for " + this);
1544             return NO_MATCH_ACTION;
1545         }
1546 
1547         int dataMatch = matchData(type, scheme, data);
1548         if (dataMatch < 0) {
1549             if (false) {
1550                 if (dataMatch == NO_MATCH_TYPE) {
1551                     Log.v(logTag, "No matching type " + type
1552                           + " for " + this);
1553                 }
1554                 if (dataMatch == NO_MATCH_DATA) {
1555                     Log.v(logTag, "No matching scheme/path " + data
1556                           + " for " + this);
1557                 }
1558             }
1559             return dataMatch;
1560         }
1561 
1562         String categoryMismatch = matchCategories(categories);
1563         if (categoryMismatch != null) {
1564             if (false) {
1565                 Log.v(logTag, "No matching category " + categoryMismatch + " for " + this);
1566             }
1567             return NO_MATCH_CATEGORY;
1568         }
1569 
1570         // It would be nice to treat container activities as more
1571         // important than ones that can be embedded, but this is not the way...
1572         if (false) {
1573             if (categories != null) {
1574                 dataMatch -= mCategories.size() - categories.size();
1575             }
1576         }
1577 
1578         return dataMatch;
1579     }
1580 
1581     /**
1582      * Write the contents of the IntentFilter as an XML stream.
1583      */
writeToXml(XmlSerializer serializer)1584     public void writeToXml(XmlSerializer serializer) throws IOException {
1585 
1586         if (getAutoVerify()) {
1587             serializer.attribute(null, AUTO_VERIFY_STR, Boolean.toString(true));
1588         }
1589 
1590         int N = countActions();
1591         for (int i=0; i<N; i++) {
1592             serializer.startTag(null, ACTION_STR);
1593             serializer.attribute(null, NAME_STR, mActions.get(i));
1594             serializer.endTag(null, ACTION_STR);
1595         }
1596         N = countCategories();
1597         for (int i=0; i<N; i++) {
1598             serializer.startTag(null, CAT_STR);
1599             serializer.attribute(null, NAME_STR, mCategories.get(i));
1600             serializer.endTag(null, CAT_STR);
1601         }
1602         N = countDataTypes();
1603         for (int i=0; i<N; i++) {
1604             serializer.startTag(null, TYPE_STR);
1605             String type = mDataTypes.get(i);
1606             if (type.indexOf('/') < 0) type = type + "/*";
1607             serializer.attribute(null, NAME_STR, type);
1608             serializer.endTag(null, TYPE_STR);
1609         }
1610         N = countDataSchemes();
1611         for (int i=0; i<N; i++) {
1612             serializer.startTag(null, SCHEME_STR);
1613             serializer.attribute(null, NAME_STR, mDataSchemes.get(i));
1614             serializer.endTag(null, SCHEME_STR);
1615         }
1616         N = countDataSchemeSpecificParts();
1617         for (int i=0; i<N; i++) {
1618             serializer.startTag(null, SSP_STR);
1619             PatternMatcher pe = mDataSchemeSpecificParts.get(i);
1620             switch (pe.getType()) {
1621                 case PatternMatcher.PATTERN_LITERAL:
1622                     serializer.attribute(null, LITERAL_STR, pe.getPath());
1623                     break;
1624                 case PatternMatcher.PATTERN_PREFIX:
1625                     serializer.attribute(null, PREFIX_STR, pe.getPath());
1626                     break;
1627                 case PatternMatcher.PATTERN_SIMPLE_GLOB:
1628                     serializer.attribute(null, SGLOB_STR, pe.getPath());
1629                     break;
1630                 case PatternMatcher.PATTERN_ADVANCED_GLOB:
1631                     serializer.attribute(null, AGLOB_STR, pe.getPath());
1632                     break;
1633             }
1634             serializer.endTag(null, SSP_STR);
1635         }
1636         N = countDataAuthorities();
1637         for (int i=0; i<N; i++) {
1638             serializer.startTag(null, AUTH_STR);
1639             AuthorityEntry ae = mDataAuthorities.get(i);
1640             serializer.attribute(null, HOST_STR, ae.getHost());
1641             if (ae.getPort() >= 0) {
1642                 serializer.attribute(null, PORT_STR, Integer.toString(ae.getPort()));
1643             }
1644             serializer.endTag(null, AUTH_STR);
1645         }
1646         N = countDataPaths();
1647         for (int i=0; i<N; i++) {
1648             serializer.startTag(null, PATH_STR);
1649             PatternMatcher pe = mDataPaths.get(i);
1650             switch (pe.getType()) {
1651                 case PatternMatcher.PATTERN_LITERAL:
1652                     serializer.attribute(null, LITERAL_STR, pe.getPath());
1653                     break;
1654                 case PatternMatcher.PATTERN_PREFIX:
1655                     serializer.attribute(null, PREFIX_STR, pe.getPath());
1656                     break;
1657                 case PatternMatcher.PATTERN_SIMPLE_GLOB:
1658                     serializer.attribute(null, SGLOB_STR, pe.getPath());
1659                     break;
1660                 case PatternMatcher.PATTERN_ADVANCED_GLOB:
1661                     serializer.attribute(null, AGLOB_STR, pe.getPath());
1662                     break;
1663             }
1664             serializer.endTag(null, PATH_STR);
1665         }
1666     }
1667 
readFromXml(XmlPullParser parser)1668     public void readFromXml(XmlPullParser parser) throws XmlPullParserException,
1669             IOException {
1670         String autoVerify = parser.getAttributeValue(null, AUTO_VERIFY_STR);
1671         setAutoVerify(TextUtils.isEmpty(autoVerify) ? false : Boolean.getBoolean(autoVerify));
1672 
1673         int outerDepth = parser.getDepth();
1674         int type;
1675         while ((type=parser.next()) != XmlPullParser.END_DOCUMENT
1676                && (type != XmlPullParser.END_TAG
1677                        || parser.getDepth() > outerDepth)) {
1678             if (type == XmlPullParser.END_TAG
1679                     || type == XmlPullParser.TEXT) {
1680                 continue;
1681             }
1682 
1683             String tagName = parser.getName();
1684             if (tagName.equals(ACTION_STR)) {
1685                 String name = parser.getAttributeValue(null, NAME_STR);
1686                 if (name != null) {
1687                     addAction(name);
1688                 }
1689             } else if (tagName.equals(CAT_STR)) {
1690                 String name = parser.getAttributeValue(null, NAME_STR);
1691                 if (name != null) {
1692                     addCategory(name);
1693                 }
1694             } else if (tagName.equals(TYPE_STR)) {
1695                 String name = parser.getAttributeValue(null, NAME_STR);
1696                 if (name != null) {
1697                     try {
1698                         addDataType(name);
1699                     } catch (MalformedMimeTypeException e) {
1700                     }
1701                 }
1702             } else if (tagName.equals(SCHEME_STR)) {
1703                 String name = parser.getAttributeValue(null, NAME_STR);
1704                 if (name != null) {
1705                     addDataScheme(name);
1706                 }
1707             } else if (tagName.equals(SSP_STR)) {
1708                 String ssp = parser.getAttributeValue(null, LITERAL_STR);
1709                 if (ssp != null) {
1710                     addDataSchemeSpecificPart(ssp, PatternMatcher.PATTERN_LITERAL);
1711                 } else if ((ssp=parser.getAttributeValue(null, PREFIX_STR)) != null) {
1712                     addDataSchemeSpecificPart(ssp, PatternMatcher.PATTERN_PREFIX);
1713                 } else if ((ssp=parser.getAttributeValue(null, SGLOB_STR)) != null) {
1714                     addDataSchemeSpecificPart(ssp, PatternMatcher.PATTERN_SIMPLE_GLOB);
1715                 } else if ((ssp=parser.getAttributeValue(null, AGLOB_STR)) != null) {
1716                     addDataSchemeSpecificPart(ssp, PatternMatcher.PATTERN_ADVANCED_GLOB);
1717                 }
1718             } else if (tagName.equals(AUTH_STR)) {
1719                 String host = parser.getAttributeValue(null, HOST_STR);
1720                 String port = parser.getAttributeValue(null, PORT_STR);
1721                 if (host != null) {
1722                     addDataAuthority(host, port);
1723                 }
1724             } else if (tagName.equals(PATH_STR)) {
1725                 String path = parser.getAttributeValue(null, LITERAL_STR);
1726                 if (path != null) {
1727                     addDataPath(path, PatternMatcher.PATTERN_LITERAL);
1728                 } else if ((path=parser.getAttributeValue(null, PREFIX_STR)) != null) {
1729                     addDataPath(path, PatternMatcher.PATTERN_PREFIX);
1730                 } else if ((path=parser.getAttributeValue(null, SGLOB_STR)) != null) {
1731                     addDataPath(path, PatternMatcher.PATTERN_SIMPLE_GLOB);
1732                 } else if ((path=parser.getAttributeValue(null, AGLOB_STR)) != null) {
1733                     addDataPath(path, PatternMatcher.PATTERN_ADVANCED_GLOB);
1734                 }
1735             } else {
1736                 Log.w("IntentFilter", "Unknown tag parsing IntentFilter: " + tagName);
1737             }
1738             XmlUtils.skipCurrentTag(parser);
1739         }
1740     }
1741 
dump(Printer du, String prefix)1742     public void dump(Printer du, String prefix) {
1743         StringBuilder sb = new StringBuilder(256);
1744         if (mActions.size() > 0) {
1745             Iterator<String> it = mActions.iterator();
1746             while (it.hasNext()) {
1747                 sb.setLength(0);
1748                 sb.append(prefix); sb.append("Action: \"");
1749                         sb.append(it.next()); sb.append("\"");
1750                 du.println(sb.toString());
1751             }
1752         }
1753         if (mCategories != null) {
1754             Iterator<String> it = mCategories.iterator();
1755             while (it.hasNext()) {
1756                 sb.setLength(0);
1757                 sb.append(prefix); sb.append("Category: \"");
1758                         sb.append(it.next()); sb.append("\"");
1759                 du.println(sb.toString());
1760             }
1761         }
1762         if (mDataSchemes != null) {
1763             Iterator<String> it = mDataSchemes.iterator();
1764             while (it.hasNext()) {
1765                 sb.setLength(0);
1766                 sb.append(prefix); sb.append("Scheme: \"");
1767                         sb.append(it.next()); sb.append("\"");
1768                 du.println(sb.toString());
1769             }
1770         }
1771         if (mDataSchemeSpecificParts != null) {
1772             Iterator<PatternMatcher> it = mDataSchemeSpecificParts.iterator();
1773             while (it.hasNext()) {
1774                 PatternMatcher pe = it.next();
1775                 sb.setLength(0);
1776                 sb.append(prefix); sb.append("Ssp: \"");
1777                         sb.append(pe); sb.append("\"");
1778                 du.println(sb.toString());
1779             }
1780         }
1781         if (mDataAuthorities != null) {
1782             Iterator<AuthorityEntry> it = mDataAuthorities.iterator();
1783             while (it.hasNext()) {
1784                 AuthorityEntry ae = it.next();
1785                 sb.setLength(0);
1786                 sb.append(prefix); sb.append("Authority: \"");
1787                         sb.append(ae.mHost); sb.append("\": ");
1788                         sb.append(ae.mPort);
1789                 if (ae.mWild) sb.append(" WILD");
1790                 du.println(sb.toString());
1791             }
1792         }
1793         if (mDataPaths != null) {
1794             Iterator<PatternMatcher> it = mDataPaths.iterator();
1795             while (it.hasNext()) {
1796                 PatternMatcher pe = it.next();
1797                 sb.setLength(0);
1798                 sb.append(prefix); sb.append("Path: \"");
1799                         sb.append(pe); sb.append("\"");
1800                 du.println(sb.toString());
1801             }
1802         }
1803         if (mDataTypes != null) {
1804             Iterator<String> it = mDataTypes.iterator();
1805             while (it.hasNext()) {
1806                 sb.setLength(0);
1807                 sb.append(prefix); sb.append("Type: \"");
1808                         sb.append(it.next()); sb.append("\"");
1809                 du.println(sb.toString());
1810             }
1811         }
1812         if (mPriority != 0 || mHasPartialTypes) {
1813             sb.setLength(0);
1814             sb.append(prefix); sb.append("mPriority="); sb.append(mPriority);
1815                     sb.append(", mHasPartialTypes="); sb.append(mHasPartialTypes);
1816             du.println(sb.toString());
1817         }
1818         if (getAutoVerify()) {
1819             sb.setLength(0);
1820             sb.append(prefix); sb.append("AutoVerify="); sb.append(getAutoVerify());
1821             du.println(sb.toString());
1822         }
1823     }
1824 
1825     public static final Parcelable.Creator<IntentFilter> CREATOR
1826             = new Parcelable.Creator<IntentFilter>() {
1827         public IntentFilter createFromParcel(Parcel source) {
1828             return new IntentFilter(source);
1829         }
1830 
1831         public IntentFilter[] newArray(int size) {
1832             return new IntentFilter[size];
1833         }
1834     };
1835 
describeContents()1836     public final int describeContents() {
1837         return 0;
1838     }
1839 
writeToParcel(Parcel dest, int flags)1840     public final void writeToParcel(Parcel dest, int flags) {
1841         dest.writeStringList(mActions);
1842         if (mCategories != null) {
1843             dest.writeInt(1);
1844             dest.writeStringList(mCategories);
1845         } else {
1846             dest.writeInt(0);
1847         }
1848         if (mDataSchemes != null) {
1849             dest.writeInt(1);
1850             dest.writeStringList(mDataSchemes);
1851         } else {
1852             dest.writeInt(0);
1853         }
1854         if (mDataTypes != null) {
1855             dest.writeInt(1);
1856             dest.writeStringList(mDataTypes);
1857         } else {
1858             dest.writeInt(0);
1859         }
1860         if (mDataSchemeSpecificParts != null) {
1861             final int N = mDataSchemeSpecificParts.size();
1862             dest.writeInt(N);
1863             for (int i=0; i<N; i++) {
1864                 mDataSchemeSpecificParts.get(i).writeToParcel(dest, flags);
1865             }
1866         } else {
1867             dest.writeInt(0);
1868         }
1869         if (mDataAuthorities != null) {
1870             final int N = mDataAuthorities.size();
1871             dest.writeInt(N);
1872             for (int i=0; i<N; i++) {
1873                 mDataAuthorities.get(i).writeToParcel(dest);
1874             }
1875         } else {
1876             dest.writeInt(0);
1877         }
1878         if (mDataPaths != null) {
1879             final int N = mDataPaths.size();
1880             dest.writeInt(N);
1881             for (int i=0; i<N; i++) {
1882                 mDataPaths.get(i).writeToParcel(dest, flags);
1883             }
1884         } else {
1885             dest.writeInt(0);
1886         }
1887         dest.writeInt(mPriority);
1888         dest.writeInt(mHasPartialTypes ? 1 : 0);
1889         dest.writeInt(getAutoVerify() ? 1 : 0);
1890         dest.writeInt(mInstantAppVisibility);
1891     }
1892 
1893     /**
1894      * For debugging -- perform a check on the filter, return true if it passed
1895      * or false if it failed.
1896      *
1897      * {@hide}
1898      */
debugCheck()1899     public boolean debugCheck() {
1900         return true;
1901 
1902         // This code looks for intent filters that do not specify data.
1903         /*
1904         if (mActions != null && mActions.size() == 1
1905                 && mActions.contains(Intent.ACTION_MAIN)) {
1906             return true;
1907         }
1908 
1909         if (mDataTypes == null && mDataSchemes == null) {
1910             Log.w("IntentFilter", "QUESTIONABLE INTENT FILTER:");
1911             dump(Log.WARN, "IntentFilter", "  ");
1912             return false;
1913         }
1914 
1915         return true;
1916         */
1917     }
1918 
1919     /** @hide */
IntentFilter(Parcel source)1920     public IntentFilter(Parcel source) {
1921         mActions = new ArrayList<String>();
1922         source.readStringList(mActions);
1923         if (source.readInt() != 0) {
1924             mCategories = new ArrayList<String>();
1925             source.readStringList(mCategories);
1926         }
1927         if (source.readInt() != 0) {
1928             mDataSchemes = new ArrayList<String>();
1929             source.readStringList(mDataSchemes);
1930         }
1931         if (source.readInt() != 0) {
1932             mDataTypes = new ArrayList<String>();
1933             source.readStringList(mDataTypes);
1934         }
1935         int N = source.readInt();
1936         if (N > 0) {
1937             mDataSchemeSpecificParts = new ArrayList<PatternMatcher>(N);
1938             for (int i=0; i<N; i++) {
1939                 mDataSchemeSpecificParts.add(new PatternMatcher(source));
1940             }
1941         }
1942         N = source.readInt();
1943         if (N > 0) {
1944             mDataAuthorities = new ArrayList<AuthorityEntry>(N);
1945             for (int i=0; i<N; i++) {
1946                 mDataAuthorities.add(new AuthorityEntry(source));
1947             }
1948         }
1949         N = source.readInt();
1950         if (N > 0) {
1951             mDataPaths = new ArrayList<PatternMatcher>(N);
1952             for (int i=0; i<N; i++) {
1953                 mDataPaths.add(new PatternMatcher(source));
1954             }
1955         }
1956         mPriority = source.readInt();
1957         mHasPartialTypes = source.readInt() > 0;
1958         setAutoVerify(source.readInt() > 0);
1959         setVisibilityToInstantApp(source.readInt());
1960     }
1961 
findMimeType(String type)1962     private final boolean findMimeType(String type) {
1963         final ArrayList<String> t = mDataTypes;
1964 
1965         if (type == null) {
1966             return false;
1967         }
1968 
1969         if (t.contains(type)) {
1970             return true;
1971         }
1972 
1973         // Deal with an Intent wanting to match every type in the IntentFilter.
1974         final int typeLength = type.length();
1975         if (typeLength == 3 && type.equals("*/*")) {
1976             return !t.isEmpty();
1977         }
1978 
1979         // Deal with this IntentFilter wanting to match every Intent type.
1980         if (mHasPartialTypes && t.contains("*")) {
1981             return true;
1982         }
1983 
1984         final int slashpos = type.indexOf('/');
1985         if (slashpos > 0) {
1986             if (mHasPartialTypes && t.contains(type.substring(0, slashpos))) {
1987                 return true;
1988             }
1989             if (typeLength == slashpos+2 && type.charAt(slashpos+1) == '*') {
1990                 // Need to look through all types for one that matches
1991                 // our base...
1992                 final int numTypes = t.size();
1993                 for (int i = 0; i < numTypes; i++) {
1994                     final String v = t.get(i);
1995                     if (type.regionMatches(0, v, 0, slashpos+1)) {
1996                         return true;
1997                     }
1998                 }
1999             }
2000         }
2001 
2002         return false;
2003     }
2004 
2005     /**
2006      * @hide
2007      */
getHostsList()2008     public ArrayList<String> getHostsList() {
2009         ArrayList<String> result = new ArrayList<>();
2010         Iterator<IntentFilter.AuthorityEntry> it = authoritiesIterator();
2011         if (it != null) {
2012             while (it.hasNext()) {
2013                 IntentFilter.AuthorityEntry entry = it.next();
2014                 result.add(entry.getHost());
2015             }
2016         }
2017         return result;
2018     }
2019 
2020     /**
2021      * @hide
2022      */
getHosts()2023     public String[] getHosts() {
2024         ArrayList<String> list = getHostsList();
2025         return list.toArray(new String[list.size()]);
2026     }
2027 }
2028