Merge Chromium + Blink git repositories
[chromium-blink-merge.git] / content / child / blob_storage / blob_consolidation.cc
blob7bebdbcfd18ad17c56201449ec0b1b911920df66
1 // Copyright 2015 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <string>
7 #include "content/child/blob_storage/blob_consolidation.h"
9 using storage::DataElement;
10 using blink::WebThreadSafeData;
12 namespace content {
14 using ReadStatus = BlobConsolidation::ReadStatus;
16 BlobConsolidation::ConsolidatedItem::ConsolidatedItem()
17 : type(DataElement::TYPE_UNKNOWN),
18 offset(0),
19 length(kuint64max),
20 expected_modification_time(0) {
23 BlobConsolidation::ConsolidatedItem::~ConsolidatedItem() {
26 BlobConsolidation::ConsolidatedItem::ConsolidatedItem(DataElement::Type type,
27 uint64_t offset,
28 uint64_t length)
29 : type(type),
30 offset(offset),
31 length(length),
32 expected_modification_time(0) {
35 BlobConsolidation::BlobConsolidation() : total_memory_(0) {
38 BlobConsolidation::~BlobConsolidation() {
41 void BlobConsolidation::AddDataItem(const WebThreadSafeData& data) {
42 if (data.size() == 0)
43 return;
44 if (consolidated_items_.empty() ||
45 consolidated_items_.back().type != DataElement::TYPE_BYTES) {
46 consolidated_items_.push_back(
47 ConsolidatedItem(DataElement::TYPE_BYTES, 0, 0));
49 ConsolidatedItem& item = consolidated_items_.back();
50 if (!item.data.empty()) {
51 item.offsets.push_back(static_cast<size_t>(item.length));
53 item.length += data.size();
54 total_memory_ += data.size();
55 item.data.push_back(data);
58 void BlobConsolidation::AddFileItem(const base::FilePath& path,
59 uint64_t offset,
60 uint64_t length,
61 double expected_modification_time) {
62 if (length == 0)
63 return;
64 consolidated_items_.push_back(
65 ConsolidatedItem(DataElement::TYPE_FILE, offset, length));
66 ConsolidatedItem& item = consolidated_items_.back();
67 item.path = path;
68 item.expected_modification_time = expected_modification_time;
71 void BlobConsolidation::AddBlobItem(const std::string& uuid,
72 uint64_t offset,
73 uint64_t length) {
74 if (length == 0)
75 return;
76 consolidated_items_.push_back(
77 ConsolidatedItem(DataElement::TYPE_BLOB, offset, length));
78 ConsolidatedItem& item = consolidated_items_.back();
79 item.blob_uuid = uuid;
82 void BlobConsolidation::AddFileSystemItem(const GURL& url,
83 uint64_t offset,
84 uint64_t length,
85 double expected_modification_time) {
86 if (length == 0)
87 return;
88 consolidated_items_.push_back(
89 ConsolidatedItem(DataElement::TYPE_FILE_FILESYSTEM, offset, length));
90 ConsolidatedItem& item = consolidated_items_.back();
91 item.filesystem_url = url;
92 item.expected_modification_time = expected_modification_time;
95 ReadStatus BlobConsolidation::ReadMemory(size_t consolidated_item_index,
96 size_t consolidated_offset,
97 size_t consolidated_size,
98 void* memory_out) {
99 CHECK(memory_out);
100 if (consolidated_item_index >= consolidated_items_.size())
101 return ReadStatus::ERROR_OUT_OF_BOUNDS;
103 const ConsolidatedItem& item = consolidated_items_[consolidated_item_index];
104 if (item.type != DataElement::TYPE_BYTES)
105 return ReadStatus::ERROR_WRONG_TYPE;
107 if (consolidated_size + consolidated_offset > item.length) {
108 LOG(ERROR) << "Invalid consolidated size " << consolidated_size
109 << " and offset " << consolidated_offset << " vs item length of "
110 << item.length;
111 return ReadStatus::ERROR_OUT_OF_BOUNDS;
114 // We do a binary search to find the correct data to start with in the data
115 // elements. This is slightly customized due to our unique storage and
116 // constraints.
117 size_t mid = 0;
118 size_t offset_from_mid = consolidated_offset;
119 size_t num_items = item.data.size();
120 if (!item.offsets.empty()) {
121 size_t low = 0;
122 size_t high = num_items - 1;
123 while (true) {
124 mid = (high + low) / 2;
125 // Note: we don't include the implicit '0' for the first item in offsets.
126 size_t item_offset = (mid == 0 ? 0 : item.offsets[mid - 1]);
127 offset_from_mid = consolidated_offset - item_offset;
128 size_t next_item_offset = (mid + 1 == num_items ? 0 : item.offsets[mid]);
129 if (item_offset == consolidated_offset) {
130 // found exact match.
131 break;
132 } else if (item_offset > consolidated_offset) {
133 high = mid - 1;
134 } else if (mid + 1 == num_items ||
135 next_item_offset > consolidated_offset) {
136 // We are at the last item, or the next offset is greater than the one
137 // we want, so the current item wins.
138 break;
139 } else {
140 low = mid + 1;
145 DCHECK_LT(offset_from_mid, item.data[mid].size());
146 // Read starting from 'mid' and 'offset_from_mid'.
147 for (size_t memory_read = 0;
148 mid < num_items && memory_read < consolidated_size; mid++) {
149 size_t read_size = std::min(item.data[mid].size() - offset_from_mid,
150 consolidated_size - memory_read);
151 memcpy(static_cast<char*>(memory_out) + memory_read,
152 item.data[mid].data() + offset_from_mid, read_size);
153 offset_from_mid = 0;
154 memory_read += read_size;
156 return ReadStatus::OK;
159 } // namespace content