Check USB device path access when prompting users to select a device.
[chromium-blink-merge.git] / chrome / renderer / safe_browsing / phishing_term_feature_extractor.cc
blobde488f4d5995203bdedf32c57487c2fcbf327b13
1 // Copyright (c) 2012 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 "chrome/renderer/safe_browsing/phishing_term_feature_extractor.h"
7 #include <list>
8 #include <map>
10 #include "base/bind.h"
11 #include "base/compiler_specific.h"
12 #include "base/i18n/break_iterator.h"
13 #include "base/i18n/case_conversion.h"
14 #include "base/logging.h"
15 #include "base/memory/scoped_ptr.h"
16 #include "base/message_loop/message_loop.h"
17 #include "base/metrics/histogram.h"
18 #include "base/strings/utf_string_conversions.h"
19 #include "base/time/time.h"
20 #include "chrome/renderer/safe_browsing/feature_extractor_clock.h"
21 #include "chrome/renderer/safe_browsing/features.h"
22 #include "chrome/renderer/safe_browsing/murmurhash3_util.h"
23 #include "crypto/sha2.h"
25 namespace safe_browsing {
27 // This time should be short enough that it doesn't noticeably disrupt the
28 // user's interaction with the page.
29 const int PhishingTermFeatureExtractor::kMaxTimePerChunkMs = 10;
31 // Experimenting shows that we get a reasonable gain in performance by
32 // increasing this up to around 10, but there's not much benefit in
33 // increasing it past that.
34 const int PhishingTermFeatureExtractor::kClockCheckGranularity = 5;
36 // This should be longer than we expect feature extraction to take on any
37 // actual phishing page.
38 const int PhishingTermFeatureExtractor::kMaxTotalTimeMs = 500;
40 // All of the state pertaining to the current feature extraction.
41 struct PhishingTermFeatureExtractor::ExtractionState {
42 // Stores up to max_words_per_term_ previous words separated by spaces.
43 std::string previous_words;
45 // Stores the current shingle after a new word is processed and added in.
46 std::string current_shingle;
48 // Stores the sizes of the words in current_shingle. Note: the size includes
49 // the space after each word. In other words, the sum of all sizes in this
50 // list is equal to the length of current_shingle.
51 std::list<size_t> shingle_word_sizes;
53 // Stores the sizes of the words in previous_words. Note: the size includes
54 // the space after each word. In other words, the sum of all sizes in this
55 // list is equal to the length of previous_words.
56 std::list<size_t> previous_word_sizes;
58 // An iterator for word breaking.
59 scoped_ptr<base::i18n::BreakIterator> iterator;
61 // The time at which we started feature extraction for the current page.
62 base::TimeTicks start_time;
64 // The number of iterations we've done for the current extraction.
65 int num_iterations;
67 ExtractionState(const base::string16& text, base::TimeTicks start_time_ticks)
68 : start_time(start_time_ticks),
69 num_iterations(0) {
71 scoped_ptr<base::i18n::BreakIterator> i(
72 new base::i18n::BreakIterator(
73 text, base::i18n::BreakIterator::BREAK_WORD));
75 if (i->Init()) {
76 iterator = i.Pass();
77 } else {
78 DLOG(ERROR) << "failed to open iterator";
83 PhishingTermFeatureExtractor::PhishingTermFeatureExtractor(
84 const base::hash_set<std::string>* page_term_hashes,
85 const base::hash_set<uint32>* page_word_hashes,
86 size_t max_words_per_term,
87 uint32 murmurhash3_seed,
88 size_t max_shingles_per_page,
89 size_t shingle_size,
90 FeatureExtractorClock* clock)
91 : page_term_hashes_(page_term_hashes),
92 page_word_hashes_(page_word_hashes),
93 max_words_per_term_(max_words_per_term),
94 murmurhash3_seed_(murmurhash3_seed),
95 max_shingles_per_page_(max_shingles_per_page),
96 shingle_size_(shingle_size),
97 clock_(clock),
98 weak_factory_(this) {
99 Clear();
102 PhishingTermFeatureExtractor::~PhishingTermFeatureExtractor() {
103 // The RenderView should have called CancelPendingExtraction() before
104 // we are destroyed.
105 CheckNoPendingExtraction();
108 void PhishingTermFeatureExtractor::ExtractFeatures(
109 const base::string16* page_text,
110 FeatureMap* features,
111 std::set<uint32>* shingle_hashes,
112 const DoneCallback& done_callback) {
113 // The RenderView should have called CancelPendingExtraction() before
114 // starting a new extraction, so DCHECK this.
115 CheckNoPendingExtraction();
116 // However, in an opt build, we will go ahead and clean up the pending
117 // extraction so that we can start in a known state.
118 CancelPendingExtraction();
120 page_text_ = page_text;
121 features_ = features;
122 shingle_hashes_ = shingle_hashes,
123 done_callback_ = done_callback;
125 state_.reset(new ExtractionState(*page_text_, clock_->Now()));
126 base::MessageLoop::current()->PostTask(
127 FROM_HERE,
128 base::Bind(&PhishingTermFeatureExtractor::ExtractFeaturesWithTimeout,
129 weak_factory_.GetWeakPtr()));
132 void PhishingTermFeatureExtractor::CancelPendingExtraction() {
133 // Cancel any pending callbacks, and clear our state.
134 weak_factory_.InvalidateWeakPtrs();
135 Clear();
138 void PhishingTermFeatureExtractor::ExtractFeaturesWithTimeout() {
139 DCHECK(state_.get());
140 ++state_->num_iterations;
141 base::TimeTicks current_chunk_start_time = clock_->Now();
143 if (!state_->iterator.get()) {
144 // We failed to initialize the break iterator, so stop now.
145 UMA_HISTOGRAM_COUNTS("SBClientPhishing.TermFeatureBreakIterError", 1);
146 RunCallback(false);
147 return;
150 int num_words = 0;
151 while (state_->iterator->Advance()) {
152 if (state_->iterator->IsWord()) {
153 const size_t start = state_->iterator->prev();
154 const size_t length = state_->iterator->pos() - start;
155 HandleWord(base::StringPiece16(page_text_->data() + start, length));
156 ++num_words;
159 if (num_words >= kClockCheckGranularity) {
160 num_words = 0;
161 base::TimeTicks now = clock_->Now();
162 if (now - state_->start_time >=
163 base::TimeDelta::FromMilliseconds(kMaxTotalTimeMs)) {
164 DLOG(ERROR) << "Feature extraction took too long, giving up";
165 // We expect this to happen infrequently, so record when it does.
166 UMA_HISTOGRAM_COUNTS("SBClientPhishing.TermFeatureTimeout", 1);
167 RunCallback(false);
168 return;
170 base::TimeDelta chunk_elapsed = now - current_chunk_start_time;
171 if (chunk_elapsed >=
172 base::TimeDelta::FromMilliseconds(kMaxTimePerChunkMs)) {
173 // The time limit for the current chunk is up, so post a task to
174 // continue extraction.
176 // Record how much time we actually spent on the chunk. If this is
177 // much higher than kMaxTimePerChunkMs, we may need to adjust the
178 // clock granularity.
179 UMA_HISTOGRAM_TIMES("SBClientPhishing.TermFeatureChunkTime",
180 chunk_elapsed);
181 base::MessageLoop::current()->PostTask(
182 FROM_HERE,
183 base::Bind(
184 &PhishingTermFeatureExtractor::ExtractFeaturesWithTimeout,
185 weak_factory_.GetWeakPtr()));
186 return;
188 // Otherwise, continue.
191 RunCallback(true);
194 void PhishingTermFeatureExtractor::HandleWord(
195 const base::StringPiece16& word) {
196 // First, extract shingle hashes.
197 const std::string& word_lower = base::UTF16ToUTF8(base::i18n::ToLower(word));
198 state_->current_shingle.append(word_lower + " ");
199 state_->shingle_word_sizes.push_back(word_lower.size() + 1);
200 if (state_->shingle_word_sizes.size() == shingle_size_) {
201 shingle_hashes_->insert(
202 MurmurHash3String(state_->current_shingle, murmurhash3_seed_));
203 state_->current_shingle.erase(0, state_->shingle_word_sizes.front());
204 state_->shingle_word_sizes.pop_front();
206 // Check if the size of shingle hashes is over the limit.
207 if (shingle_hashes_->size() > max_shingles_per_page_) {
208 // Pop the largest one.
209 std::set<uint32>::iterator it = shingle_hashes_->end();
210 shingle_hashes_->erase(--it);
213 // Next, extract page terms.
214 uint32 word_hash = MurmurHash3String(word_lower, murmurhash3_seed_);
216 // Quick out if the word is not part of any term, which is the common case.
217 if (page_word_hashes_->find(word_hash) == page_word_hashes_->end()) {
218 // Word doesn't exist in our terms so we can clear the n-gram state.
219 state_->previous_words.clear();
220 state_->previous_word_sizes.clear();
221 return;
224 // Find all of the n-grams that we need to check and compute their SHA-256
225 // hashes.
226 std::map<std::string /* hash */, std::string /* plaintext */>
227 hashes_to_check;
228 hashes_to_check[crypto::SHA256HashString(word_lower)] = word_lower;
230 // Combine the new word with the previous words to find additional n-grams.
231 // Note that we don't yet add the new word length to previous_word_sizes,
232 // since we don't want to compute the hash for the word by itself again.
234 state_->previous_words.append(word_lower);
235 std::string current_term = state_->previous_words;
236 for (std::list<size_t>::iterator it = state_->previous_word_sizes.begin();
237 it != state_->previous_word_sizes.end(); ++it) {
238 hashes_to_check[crypto::SHA256HashString(current_term)] = current_term;
239 current_term.erase(0, *it);
242 // Add features for any hashes that match page_term_hashes_.
243 for (std::map<std::string, std::string>::iterator it =
244 hashes_to_check.begin();
245 it != hashes_to_check.end(); ++it) {
246 if (page_term_hashes_->find(it->first) != page_term_hashes_->end()) {
247 features_->AddBooleanFeature(features::kPageTerm + it->second);
251 // Now that we have handled the current word, we have to add a space at the
252 // end of it, and add the new word's size (including the space) to
253 // previous_word_sizes. Note: it's possible that the document language
254 // doesn't use ASCII spaces to separate words. That's fine though, we just
255 // need to be consistent with how the model is generated.
256 state_->previous_words.append(" ");
257 state_->previous_word_sizes.push_back(word_lower.size() + 1);
259 // Cap the number of previous words.
260 if (state_->previous_word_sizes.size() >= max_words_per_term_) {
261 state_->previous_words.erase(0, state_->previous_word_sizes.front());
262 state_->previous_word_sizes.pop_front();
266 void PhishingTermFeatureExtractor::CheckNoPendingExtraction() {
267 DCHECK(done_callback_.is_null());
268 DCHECK(!state_.get());
269 if (!done_callback_.is_null() || state_.get()) {
270 LOG(ERROR) << "Extraction in progress, missing call to "
271 << "CancelPendingExtraction";
275 void PhishingTermFeatureExtractor::RunCallback(bool success) {
276 // Record some timing stats that we can use to evaluate feature extraction
277 // performance. These include both successful and failed extractions.
278 DCHECK(state_.get());
279 UMA_HISTOGRAM_COUNTS("SBClientPhishing.TermFeatureIterations",
280 state_->num_iterations);
281 UMA_HISTOGRAM_TIMES("SBClientPhishing.TermFeatureTotalTime",
282 clock_->Now() - state_->start_time);
284 DCHECK(!done_callback_.is_null());
285 done_callback_.Run(success);
286 Clear();
289 void PhishingTermFeatureExtractor::Clear() {
290 page_text_ = NULL;
291 features_ = NULL;
292 shingle_hashes_ = NULL;
293 done_callback_.Reset();
294 state_.reset(NULL);
297 } // namespace safe_browsing