• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  * Copyright (C) 2016 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 package android.content.pm.split;
17 
18 import android.annotation.IntRange;
19 import android.annotation.NonNull;
20 import android.content.pm.PackageParser;
21 import android.util.IntArray;
22 import android.util.SparseArray;
23 
24 import libcore.util.EmptyArray;
25 
26 import java.util.Arrays;
27 import java.util.BitSet;
28 
29 /**
30  * A helper class that implements the dependency tree traversal for splits. Callbacks
31  * are implemented by subclasses to notify whether a split has already been constructed
32  * and is cached, and to actually create the split requested.
33  *
34  * This helper is meant to be subclassed so as to reduce the number of allocations
35  * needed to make use of it.
36  *
37  * All inputs and outputs are assumed to be indices into an array of splits.
38  *
39  * @hide
40  */
41 public abstract class SplitDependencyLoader<E extends Exception> {
42     private final @NonNull SparseArray<int[]> mDependencies;
43 
44     /**
45      * Construct a new SplitDependencyLoader. Meant to be called from the
46      * subclass constructor.
47      * @param dependencies The dependency tree of splits.
48      */
SplitDependencyLoader(@onNull SparseArray<int[]> dependencies)49     protected SplitDependencyLoader(@NonNull SparseArray<int[]> dependencies) {
50         mDependencies = dependencies;
51     }
52 
53     /**
54      * Traverses the dependency tree and constructs any splits that are not already
55      * cached. This routine short-circuits and skips the creation of splits closer to the
56      * root if they are cached, as reported by the subclass implementation of
57      * {@link #isSplitCached(int)}. The construction of splits is delegated to the subclass
58      * implementation of {@link #constructSplit(int, int[], int)}.
59      * @param splitIdx The index of the split to load. 0 represents the base Application.
60      */
loadDependenciesForSplit(@ntRangefrom = 0) int splitIdx)61     protected void loadDependenciesForSplit(@IntRange(from = 0) int splitIdx) throws E {
62         // Quick check before any allocations are done.
63         if (isSplitCached(splitIdx)) {
64             return;
65         }
66 
67         // Special case the base, since it has no dependencies.
68         if (splitIdx == 0) {
69             final int[] configSplitIndices = collectConfigSplitIndices(0);
70             constructSplit(0, configSplitIndices, -1);
71             return;
72         }
73 
74         // Build up the dependency hierarchy.
75         final IntArray linearDependencies = new IntArray();
76         linearDependencies.add(splitIdx);
77 
78         // Collect all the dependencies that need to be constructed.
79         // They will be listed from leaf to root.
80         while (true) {
81             // Only follow the first index into the array. The others are config splits and
82             // get loaded with the split.
83             final int[] deps = mDependencies.get(splitIdx);
84             if (deps != null && deps.length > 0) {
85                 splitIdx = deps[0];
86             } else {
87                 splitIdx = -1;
88             }
89 
90             if (splitIdx < 0 || isSplitCached(splitIdx)) {
91                 break;
92             }
93 
94             linearDependencies.add(splitIdx);
95         }
96 
97         // Visit each index, from right to left (root to leaf).
98         int parentIdx = splitIdx;
99         for (int i = linearDependencies.size() - 1; i >= 0; i--) {
100             final int idx = linearDependencies.get(i);
101             final int[] configSplitIndices = collectConfigSplitIndices(idx);
102             constructSplit(idx, configSplitIndices, parentIdx);
103             parentIdx = idx;
104         }
105     }
106 
collectConfigSplitIndices(int splitIdx)107     private @NonNull int[] collectConfigSplitIndices(int splitIdx) {
108         // The config splits appear after the first element.
109         final int[] deps = mDependencies.get(splitIdx);
110         if (deps == null || deps.length <= 1) {
111             return EmptyArray.INT;
112         }
113         return Arrays.copyOfRange(deps, 1, deps.length);
114     }
115 
116     /**
117      * Subclass to report whether the split at `splitIdx` is cached and need not be constructed.
118      * It is assumed that if `splitIdx` is cached, any parent of `splitIdx` is also cached.
119      * @param splitIdx The index of the split to check for in the cache.
120      * @return true if the split is cached and does not need to be constructed.
121      */
isSplitCached(@ntRangefrom = 0) int splitIdx)122     protected abstract boolean isSplitCached(@IntRange(from = 0) int splitIdx);
123 
124     /**
125      * Subclass to construct a split at index `splitIdx` with parent split `parentSplitIdx`.
126      * The result is expected to be cached by the subclass in its own structures.
127      * @param splitIdx The index of the split to construct. 0 represents the base Application.
128      * @param configSplitIndices The array of configuration splits to load along with this split.
129      *                           May be empty (length == 0) but never null.
130      * @param parentSplitIdx The index of the parent split. -1 if there is no parent.
131      * @throws E Subclass defined exception representing failure to construct a split.
132      */
constructSplit(@ntRangefrom = 0) int splitIdx, @NonNull @IntRange(from = 1) int[] configSplitIndices, @IntRange(from = -1) int parentSplitIdx)133     protected abstract void constructSplit(@IntRange(from = 0) int splitIdx,
134             @NonNull @IntRange(from = 1) int[] configSplitIndices,
135             @IntRange(from = -1) int parentSplitIdx) throws E;
136 
137     public static class IllegalDependencyException extends Exception {
IllegalDependencyException(String message)138         private IllegalDependencyException(String message) {
139             super(message);
140         }
141     }
142 
append(int[] src, int elem)143     private static int[] append(int[] src, int elem) {
144         if (src == null) {
145             return new int[] { elem };
146         }
147         int[] dst = Arrays.copyOf(src, src.length + 1);
148         dst[src.length] = elem;
149         return dst;
150     }
151 
createDependenciesFromPackage( PackageParser.PackageLite pkg)152     public static @NonNull SparseArray<int[]> createDependenciesFromPackage(
153             PackageParser.PackageLite pkg) throws IllegalDependencyException {
154         // The data structure that holds the dependencies. In PackageParser, splits are stored
155         // in their own array, separate from the base. We treat all paths as equals, so
156         // we need to insert the base as index 0, and shift all other splits.
157         final SparseArray<int[]> splitDependencies = new SparseArray<>();
158 
159         // The base depends on nothing.
160         splitDependencies.put(0, new int[] {-1});
161 
162         // First write out the <uses-split> dependencies. These must appear first in the
163         // array of ints, as is convention in this class.
164         for (int splitIdx = 0; splitIdx < pkg.splitNames.length; splitIdx++) {
165             if (!pkg.isFeatureSplits[splitIdx]) {
166                 // Non-feature splits don't have dependencies.
167                 continue;
168             }
169 
170             // Implicit dependency on the base.
171             final int targetIdx;
172             final String splitDependency = pkg.usesSplitNames[splitIdx];
173             if (splitDependency != null) {
174                 final int depIdx = Arrays.binarySearch(pkg.splitNames, splitDependency);
175                 if (depIdx < 0) {
176                     throw new IllegalDependencyException("Split '" + pkg.splitNames[splitIdx]
177                             + "' requires split '" + splitDependency + "', which is missing.");
178                 }
179                 targetIdx = depIdx + 1;
180             } else {
181                 // Implicitly depend on the base.
182                 targetIdx = 0;
183             }
184             splitDependencies.put(splitIdx + 1, new int[] {targetIdx});
185         }
186 
187         // Write out the configForSplit reverse-dependencies. These appear after the <uses-split>
188         // dependencies and are considered leaves.
189         //
190         // At this point, all splits in splitDependencies have the first element in their array set.
191         for (int splitIdx = 0; splitIdx < pkg.splitNames.length; splitIdx++) {
192             if (pkg.isFeatureSplits[splitIdx]) {
193                 // Feature splits are not configForSplits.
194                 continue;
195             }
196 
197             // Implicit feature for the base.
198             final int targetSplitIdx;
199             final String configForSplit = pkg.configForSplit[splitIdx];
200             if (configForSplit != null) {
201                 final int depIdx = Arrays.binarySearch(pkg.splitNames, configForSplit);
202                 if (depIdx < 0) {
203                     throw new IllegalDependencyException("Split '" + pkg.splitNames[splitIdx]
204                             + "' targets split '" + configForSplit + "', which is missing.");
205                 }
206 
207                 if (!pkg.isFeatureSplits[depIdx]) {
208                     throw new IllegalDependencyException("Split '" + pkg.splitNames[splitIdx]
209                             + "' declares itself as configuration split for a non-feature split '"
210                             + pkg.splitNames[depIdx] + "'");
211                 }
212                 targetSplitIdx = depIdx + 1;
213             } else {
214                 targetSplitIdx = 0;
215             }
216             splitDependencies.put(targetSplitIdx,
217                     append(splitDependencies.get(targetSplitIdx), splitIdx + 1));
218         }
219 
220         // Verify that there are no cycles.
221         final BitSet bitset = new BitSet();
222         for (int i = 0, size = splitDependencies.size(); i < size; i++) {
223             int splitIdx = splitDependencies.keyAt(i);
224 
225             bitset.clear();
226             while (splitIdx != -1) {
227                 // Check if this split has been visited yet.
228                 if (bitset.get(splitIdx)) {
229                     throw new IllegalDependencyException("Cycle detected in split dependencies.");
230                 }
231 
232                 // Mark the split so that if we visit it again, we no there is a cycle.
233                 bitset.set(splitIdx);
234 
235                 // Follow the first dependency only, the others are leaves by definition.
236                 final int[] deps = splitDependencies.get(splitIdx);
237                 splitIdx = deps != null ? deps[0] : -1;
238             }
239         }
240         return splitDependencies;
241     }
242 }
243