d98e07fdf9
Change-Id: I6cf4268599460791414882f91eeb88a992fbd29d
362 lines
12 KiB
C++
362 lines
12 KiB
C++
/*
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** Copyright 2011, The Android Open Source Project
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**
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** Licensed under the Apache License, Version 2.0 (the "License");
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** you may not use this file except in compliance with the License.
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** You may obtain a copy of the License at
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**
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** http://www.apache.org/licenses/LICENSE-2.0
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**
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** Unless required by applicable law or agreed to in writing, software
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** distributed under the License is distributed on an "AS IS" BASIS,
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** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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** See the License for the specific language governing permissions and
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** limitations under the License.
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*/
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#define LOG_TAG "BlobCache"
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//#define LOG_NDEBUG 0
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#include <stdlib.h>
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#include <string.h>
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#include <utils/BlobCache.h>
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#include <utils/Errors.h>
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#include <utils/Log.h>
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namespace android {
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// BlobCache::Header::mMagicNumber value
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static const uint32_t blobCacheMagic = '_Bb$';
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// BlobCache::Header::mBlobCacheVersion value
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static const uint32_t blobCacheVersion = 1;
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// BlobCache::Header::mDeviceVersion value
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static const uint32_t blobCacheDeviceVersion = 1;
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BlobCache::BlobCache(size_t maxKeySize, size_t maxValueSize, size_t maxTotalSize):
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mMaxKeySize(maxKeySize),
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mMaxValueSize(maxValueSize),
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mMaxTotalSize(maxTotalSize),
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mTotalSize(0) {
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nsecs_t now = systemTime(SYSTEM_TIME_MONOTONIC);
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#ifdef _WIN32
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srand(now);
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#else
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mRandState[0] = (now >> 0) & 0xFFFF;
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mRandState[1] = (now >> 16) & 0xFFFF;
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mRandState[2] = (now >> 32) & 0xFFFF;
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#endif
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ALOGV("initializing random seed using %lld", now);
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}
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void BlobCache::set(const void* key, size_t keySize, const void* value,
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size_t valueSize) {
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if (mMaxKeySize < keySize) {
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ALOGV("set: not caching because the key is too large: %d (limit: %d)",
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keySize, mMaxKeySize);
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return;
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}
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if (mMaxValueSize < valueSize) {
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ALOGV("set: not caching because the value is too large: %d (limit: %d)",
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valueSize, mMaxValueSize);
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return;
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}
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if (mMaxTotalSize < keySize + valueSize) {
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ALOGV("set: not caching because the combined key/value size is too "
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"large: %d (limit: %d)", keySize + valueSize, mMaxTotalSize);
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return;
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}
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if (keySize == 0) {
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ALOGW("set: not caching because keySize is 0");
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return;
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}
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if (valueSize <= 0) {
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ALOGW("set: not caching because valueSize is 0");
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return;
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}
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sp<Blob> dummyKey(new Blob(key, keySize, false));
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CacheEntry dummyEntry(dummyKey, NULL);
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while (true) {
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ssize_t index = mCacheEntries.indexOf(dummyEntry);
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if (index < 0) {
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// Create a new cache entry.
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sp<Blob> keyBlob(new Blob(key, keySize, true));
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sp<Blob> valueBlob(new Blob(value, valueSize, true));
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size_t newTotalSize = mTotalSize + keySize + valueSize;
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if (mMaxTotalSize < newTotalSize) {
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if (isCleanable()) {
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// Clean the cache and try again.
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clean();
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continue;
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} else {
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ALOGV("set: not caching new key/value pair because the "
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"total cache size limit would be exceeded: %d "
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"(limit: %d)",
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keySize + valueSize, mMaxTotalSize);
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break;
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}
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}
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mCacheEntries.add(CacheEntry(keyBlob, valueBlob));
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mTotalSize = newTotalSize;
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ALOGV("set: created new cache entry with %d byte key and %d byte value",
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keySize, valueSize);
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} else {
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// Update the existing cache entry.
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sp<Blob> valueBlob(new Blob(value, valueSize, true));
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sp<Blob> oldValueBlob(mCacheEntries[index].getValue());
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size_t newTotalSize = mTotalSize + valueSize - oldValueBlob->getSize();
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if (mMaxTotalSize < newTotalSize) {
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if (isCleanable()) {
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// Clean the cache and try again.
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clean();
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continue;
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} else {
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ALOGV("set: not caching new value because the total cache "
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"size limit would be exceeded: %d (limit: %d)",
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keySize + valueSize, mMaxTotalSize);
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break;
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}
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}
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mCacheEntries.editItemAt(index).setValue(valueBlob);
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mTotalSize = newTotalSize;
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ALOGV("set: updated existing cache entry with %d byte key and %d byte "
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"value", keySize, valueSize);
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}
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break;
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}
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}
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size_t BlobCache::get(const void* key, size_t keySize, void* value,
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size_t valueSize) {
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if (mMaxKeySize < keySize) {
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ALOGV("get: not searching because the key is too large: %d (limit %d)",
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keySize, mMaxKeySize);
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return 0;
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}
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sp<Blob> dummyKey(new Blob(key, keySize, false));
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CacheEntry dummyEntry(dummyKey, NULL);
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ssize_t index = mCacheEntries.indexOf(dummyEntry);
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if (index < 0) {
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ALOGV("get: no cache entry found for key of size %d", keySize);
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return 0;
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}
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// The key was found. Return the value if the caller's buffer is large
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// enough.
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sp<Blob> valueBlob(mCacheEntries[index].getValue());
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size_t valueBlobSize = valueBlob->getSize();
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if (valueBlobSize <= valueSize) {
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ALOGV("get: copying %d bytes to caller's buffer", valueBlobSize);
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memcpy(value, valueBlob->getData(), valueBlobSize);
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} else {
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ALOGV("get: caller's buffer is too small for value: %d (needs %d)",
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valueSize, valueBlobSize);
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}
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return valueBlobSize;
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}
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static inline size_t align4(size_t size) {
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return (size + 3) & ~3;
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}
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size_t BlobCache::getFlattenedSize() const {
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size_t size = sizeof(Header);
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for (size_t i = 0; i < mCacheEntries.size(); i++) {
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const CacheEntry& e(mCacheEntries[i]);
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sp<Blob> keyBlob = e.getKey();
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sp<Blob> valueBlob = e.getValue();
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size = align4(size);
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size += sizeof(EntryHeader) + keyBlob->getSize() +
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valueBlob->getSize();
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}
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return size;
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}
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status_t BlobCache::flatten(void* buffer, size_t size) const {
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// Write the cache header
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if (size < sizeof(Header)) {
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ALOGE("flatten: not enough room for cache header");
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return BAD_VALUE;
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}
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Header* header = reinterpret_cast<Header*>(buffer);
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header->mMagicNumber = blobCacheMagic;
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header->mBlobCacheVersion = blobCacheVersion;
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header->mDeviceVersion = blobCacheDeviceVersion;
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header->mNumEntries = mCacheEntries.size();
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// Write cache entries
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uint8_t* byteBuffer = reinterpret_cast<uint8_t*>(buffer);
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off_t byteOffset = align4(sizeof(Header));
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for (size_t i = 0; i < mCacheEntries.size(); i++) {
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const CacheEntry& e(mCacheEntries[i]);
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sp<Blob> keyBlob = e.getKey();
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sp<Blob> valueBlob = e.getValue();
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size_t keySize = keyBlob->getSize();
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size_t valueSize = valueBlob->getSize();
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size_t entrySize = sizeof(EntryHeader) + keySize + valueSize;
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if (byteOffset + entrySize > size) {
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ALOGE("flatten: not enough room for cache entries");
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return BAD_VALUE;
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}
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EntryHeader* eheader = reinterpret_cast<EntryHeader*>(
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&byteBuffer[byteOffset]);
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eheader->mKeySize = keySize;
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eheader->mValueSize = valueSize;
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memcpy(eheader->mData, keyBlob->getData(), keySize);
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memcpy(eheader->mData + keySize, valueBlob->getData(), valueSize);
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byteOffset += align4(entrySize);
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}
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return OK;
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}
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status_t BlobCache::unflatten(void const* buffer, size_t size) {
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// All errors should result in the BlobCache being in an empty state.
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mCacheEntries.clear();
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// Read the cache header
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if (size < sizeof(Header)) {
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ALOGE("unflatten: not enough room for cache header");
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return BAD_VALUE;
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}
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const Header* header = reinterpret_cast<const Header*>(buffer);
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if (header->mMagicNumber != blobCacheMagic) {
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ALOGE("unflatten: bad magic number: %d", header->mMagicNumber);
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return BAD_VALUE;
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}
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if (header->mBlobCacheVersion != blobCacheVersion ||
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header->mDeviceVersion != blobCacheDeviceVersion) {
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// We treat version mismatches as an empty cache.
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return OK;
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}
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// Read cache entries
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const uint8_t* byteBuffer = reinterpret_cast<const uint8_t*>(buffer);
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off_t byteOffset = align4(sizeof(Header));
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size_t numEntries = header->mNumEntries;
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for (size_t i = 0; i < numEntries; i++) {
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if (byteOffset + sizeof(EntryHeader) > size) {
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mCacheEntries.clear();
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ALOGE("unflatten: not enough room for cache entry headers");
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return BAD_VALUE;
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}
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const EntryHeader* eheader = reinterpret_cast<const EntryHeader*>(
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&byteBuffer[byteOffset]);
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size_t keySize = eheader->mKeySize;
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size_t valueSize = eheader->mValueSize;
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size_t entrySize = sizeof(EntryHeader) + keySize + valueSize;
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if (byteOffset + entrySize > size) {
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mCacheEntries.clear();
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ALOGE("unflatten: not enough room for cache entry headers");
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return BAD_VALUE;
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}
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const uint8_t* data = eheader->mData;
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set(data, keySize, data + keySize, valueSize);
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byteOffset += align4(entrySize);
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}
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return OK;
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}
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long int BlobCache::blob_random() {
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#ifdef _WIN32
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return rand();
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#else
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return nrand48(mRandState);
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#endif
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}
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void BlobCache::clean() {
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// Remove a random cache entry until the total cache size gets below half
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// the maximum total cache size.
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while (mTotalSize > mMaxTotalSize / 2) {
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size_t i = size_t(blob_random() % (mCacheEntries.size()));
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const CacheEntry& entry(mCacheEntries[i]);
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mTotalSize -= entry.getKey()->getSize() + entry.getValue()->getSize();
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mCacheEntries.removeAt(i);
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}
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}
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bool BlobCache::isCleanable() const {
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return mTotalSize > mMaxTotalSize / 2;
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}
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BlobCache::Blob::Blob(const void* data, size_t size, bool copyData):
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mData(copyData ? malloc(size) : data),
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mSize(size),
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mOwnsData(copyData) {
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if (data != NULL && copyData) {
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memcpy(const_cast<void*>(mData), data, size);
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}
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}
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BlobCache::Blob::~Blob() {
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if (mOwnsData) {
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free(const_cast<void*>(mData));
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}
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}
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bool BlobCache::Blob::operator<(const Blob& rhs) const {
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if (mSize == rhs.mSize) {
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return memcmp(mData, rhs.mData, mSize) < 0;
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} else {
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return mSize < rhs.mSize;
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}
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}
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const void* BlobCache::Blob::getData() const {
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return mData;
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}
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size_t BlobCache::Blob::getSize() const {
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return mSize;
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}
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BlobCache::CacheEntry::CacheEntry() {
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}
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BlobCache::CacheEntry::CacheEntry(const sp<Blob>& key, const sp<Blob>& value):
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mKey(key),
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mValue(value) {
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}
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BlobCache::CacheEntry::CacheEntry(const CacheEntry& ce):
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mKey(ce.mKey),
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mValue(ce.mValue) {
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}
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bool BlobCache::CacheEntry::operator<(const CacheEntry& rhs) const {
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return *mKey < *rhs.mKey;
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}
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const BlobCache::CacheEntry& BlobCache::CacheEntry::operator=(const CacheEntry& rhs) {
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mKey = rhs.mKey;
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mValue = rhs.mValue;
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return *this;
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}
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sp<BlobCache::Blob> BlobCache::CacheEntry::getKey() const {
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return mKey;
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}
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sp<BlobCache::Blob> BlobCache::CacheEntry::getValue() const {
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return mValue;
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}
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void BlobCache::CacheEntry::setValue(const sp<Blob>& value) {
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mValue = value;
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}
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} // namespace android
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