// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "chrome/browser/net/url_info.h" #include <ctype.h> #include <math.h> #include <algorithm> #include <string> #include "base/format_macros.h" #include "base/lazy_instance.h" #include "base/logging.h" #include "base/metrics/histogram.h" #include "base/strings/stringprintf.h" using base::Time; using base::TimeDelta; using base::TimeTicks; namespace chrome_browser_net { namespace { // The number of OS cache entries we can guarantee(?) before cache eviction // might likely take place. const int kMaxGuaranteedDnsCacheSize = 50; // Common low end TTL for sites is 5 minutes. However, DNS servers give us the // remaining time, not the original 5 minutes. Hence it doesn't much matter // whether we found something in the local cache, or an ISP cache, it will on // average be 2.5 minutes before it expires. We could try to model this with // 180 seconds, but simpler is just to do the lookups all the time (wasting OS // calls(?)), and let that OS cache decide what to do (with TTL in hand). We // use a small time to help get some duplicate suppression, in case a page has // a TON of copies of the same domain name, so that we don't thrash the OS to // death. Hopefully it is small enough that we're not hurting our cache hit // rate (i.e., we could always ask the OS). const int kDefaultCacheExpirationDuration = 5; TimeDelta MaxNonNetworkDnsLookupDuration() { return TimeDelta::FromMilliseconds(15); } bool detailed_logging_enabled = false; struct GlobalState { GlobalState() { cache_expiration_duration = TimeDelta::FromSeconds(kDefaultCacheExpirationDuration); } TimeDelta cache_expiration_duration; }; base::LazyInstance<GlobalState>::Leaky global_state; } // anonymous namespace // Use command line switch to enable detailed logging. void EnablePredictorDetailedLog(bool enable) { detailed_logging_enabled = enable; } // static int UrlInfo::sequence_counter = 1; UrlInfo::UrlInfo() : state_(PENDING), old_prequeue_state_(state_), resolve_duration_(NullDuration()), queue_duration_(NullDuration()), sequence_number_(0), motivation_(NO_PREFETCH_MOTIVATION), was_linked_(false) { } UrlInfo::~UrlInfo() {} bool UrlInfo::NeedsDnsUpdate() { switch (state_) { case PENDING: // Just now created info. return true; case QUEUED: // In queue. case ASSIGNED: // It's being resolved. case ASSIGNED_BUT_MARKED: // It's being resolved. return false; // We're already working on it case NO_SUCH_NAME: // Lookup failed. case FOUND: // Lookup succeeded. return !IsStillCached(); // See if DNS cache expired. default: NOTREACHED(); return false; } } // Used by test ONLY. The value is otherwise constant. // static void UrlInfo::set_cache_expiration(TimeDelta time) { global_state.Pointer()->cache_expiration_duration = time; } // static TimeDelta UrlInfo::get_cache_expiration() { return global_state.Get().cache_expiration_duration; } void UrlInfo::SetQueuedState(ResolutionMotivation motivation) { DCHECK(PENDING == state_ || FOUND == state_ || NO_SUCH_NAME == state_); old_prequeue_state_ = state_; state_ = QUEUED; queue_duration_ = resolve_duration_ = NullDuration(); SetMotivation(motivation); GetDuration(); // Set time_ DLogResultsStats("DNS Prefetch in queue"); } void UrlInfo::SetAssignedState() { DCHECK(QUEUED == state_); state_ = ASSIGNED; queue_duration_ = GetDuration(); DLogResultsStats("DNS Prefetch assigned"); UMA_HISTOGRAM_TIMES("DNS.PrefetchQueue", queue_duration_); } void UrlInfo::RemoveFromQueue() { DCHECK(ASSIGNED == state_); state_ = old_prequeue_state_; DLogResultsStats("DNS Prefetch reset to prequeue"); const TimeDelta kBoundary = TimeDelta::FromSeconds(2); if (queue_duration_ > kBoundary) { UMA_HISTOGRAM_MEDIUM_TIMES("DNS.QueueRecycledDeltaOver2", queue_duration_ - kBoundary); return; } // Make a custom linear histogram for the region from 0 to boundary. static const size_t kBucketCount = 52; static base::HistogramBase* histogram(NULL); if (!histogram) histogram = base::LinearHistogram::FactoryTimeGet( "DNS.QueueRecycledUnder2", TimeDelta(), kBoundary, kBucketCount, base::HistogramBase::kUmaTargetedHistogramFlag); histogram->AddTime(queue_duration_); } void UrlInfo::SetPendingDeleteState() { DCHECK(ASSIGNED == state_ || ASSIGNED_BUT_MARKED == state_); state_ = ASSIGNED_BUT_MARKED; } void UrlInfo::SetFoundState() { DCHECK(ASSIGNED == state_); state_ = FOUND; resolve_duration_ = GetDuration(); const TimeDelta max_duration = MaxNonNetworkDnsLookupDuration(); if (max_duration <= resolve_duration_) { UMA_HISTOGRAM_CUSTOM_TIMES("DNS.PrefetchResolution", resolve_duration_, max_duration, TimeDelta::FromMinutes(15), 100); } sequence_number_ = sequence_counter++; DLogResultsStats("DNS PrefetchFound"); } void UrlInfo::SetNoSuchNameState() { DCHECK(ASSIGNED == state_); state_ = NO_SUCH_NAME; resolve_duration_ = GetDuration(); if (MaxNonNetworkDnsLookupDuration() <= resolve_duration_) { DHISTOGRAM_TIMES("DNS.PrefetchNotFoundName", resolve_duration_); } sequence_number_ = sequence_counter++; DLogResultsStats("DNS PrefetchNotFound"); } void UrlInfo::SetUrl(const GURL& url) { if (url_.is_empty()) // Not yet initialized. url_ = url; else DCHECK_EQ(url_, url); } // IsStillCached() guesses if the DNS cache still has IP data, // or at least remembers results about "not finding host." bool UrlInfo::IsStillCached() const { DCHECK(FOUND == state_ || NO_SUCH_NAME == state_); // Default MS OS does not cache failures. Hence we could return false almost // all the time for that case. However, we'd never try again to prefetch // the value if we returned false that way. Hence we'll just let the lookup // time out the same way as FOUND case. if (sequence_counter - sequence_number_ > kMaxGuaranteedDnsCacheSize) return false; TimeDelta time_since_resolution = TimeTicks::Now() - time_; return time_since_resolution < global_state.Get().cache_expiration_duration; } void UrlInfo::DLogResultsStats(const char* message) const { if (!detailed_logging_enabled) return; DVLOG(1) << "\t" << message << "\tq=" << queue_duration().InMilliseconds() << "ms,\tr=" << resolve_duration().InMilliseconds() << "ms,\tp=" << sequence_number_ << "\t" << url_.spec(); } //------------------------------------------------------------------------------ // This last section supports HTML output, such as seen in about:dns. //------------------------------------------------------------------------------ // Preclude any possibility of Java Script or markup in the text, by only // allowing alphanumerics, '.', '-', ':', and whitespace. static std::string RemoveJs(const std::string& text) { std::string output(text); size_t length = output.length(); for (size_t i = 0; i < length; i++) { char next = output[i]; if (isalnum(next) || isspace(next) || strchr(".-:/", next) != NULL) continue; output[i] = '?'; } return output; } class MinMaxAverage { public: MinMaxAverage() : sum_(0), square_sum_(0), count_(0), minimum_(kint64max), maximum_(kint64min) { } // Return values for use in printf formatted as "%d" int sample(int64 value) { sum_ += value; square_sum_ += value * value; count_++; minimum_ = std::min(minimum_, value); maximum_ = std::max(maximum_, value); return static_cast<int>(value); } int minimum() const { return static_cast<int>(minimum_); } int maximum() const { return static_cast<int>(maximum_); } int average() const { return static_cast<int>(sum_/count_); } int sum() const { return static_cast<int>(sum_); } int standard_deviation() const { double average = static_cast<float>(sum_) / count_; double variance = static_cast<float>(square_sum_)/count_ - average * average; return static_cast<int>(floor(sqrt(variance) + .5)); } private: int64 sum_; int64 square_sum_; int count_; int64 minimum_; int64 maximum_; // DISALLOW_COPY_AND_ASSIGN(MinMaxAverage); }; static std::string HoursMinutesSeconds(int seconds) { std::string result; int print_seconds = seconds % 60; int minutes = seconds / 60; int print_minutes = minutes % 60; int print_hours = minutes/60; if (print_hours) base::StringAppendF(&result, "%.2d:", print_hours); if (print_hours || print_minutes) base::StringAppendF(&result, "%2.2d:", print_minutes); base::StringAppendF(&result, "%2.2d", print_seconds); return result; } // static void UrlInfo::GetHtmlTable(const UrlInfoTable& host_infos, const char* description, bool brief, std::string* output) { if (0 == host_infos.size()) return; output->append(description); base::StringAppendF(output, "%" PRIuS " %s", host_infos.size(), (1 == host_infos.size()) ? "hostname" : "hostnames"); if (brief) { output->append("<br><br>"); return; } output->append("<br><table border=1>" "<tr><th>Host name</th>" "<th>How long ago<br>(HH:MM:SS)</th>" "<th>Motivation</th>" "</tr>"); const char* row_format = "<tr align=right><td>%s</td>" // Host name. "<td>%s</td>" // How long ago. "<td>%s</td>" // Motivation. "</tr>"; // Print bulk of table, and gather stats at same time. MinMaxAverage queue, when; TimeTicks current_time = TimeTicks::Now(); for (UrlInfoTable::const_iterator it(host_infos.begin()); it != host_infos.end(); it++) { queue.sample((it->queue_duration_.InMilliseconds())); base::StringAppendF( output, row_format, RemoveJs(it->url_.spec()).c_str(), HoursMinutesSeconds(when.sample( (current_time - it->time_).InSeconds())).c_str(), it->GetAsciiMotivation().c_str()); } output->append("</table>"); #ifndef NDEBUG base::StringAppendF( output, "Prefetch Queue Durations: min=%d, avg=%d, max=%d<br><br>", queue.minimum(), queue.average(), queue.maximum()); #endif output->append("<br>"); } void UrlInfo::SetMotivation(ResolutionMotivation motivation) { motivation_ = motivation; if (motivation < LINKED_MAX_MOTIVATED) was_linked_ = true; } std::string UrlInfo::GetAsciiMotivation() const { switch (motivation_) { case MOUSE_OVER_MOTIVATED: return "[mouse-over]"; case PAGE_SCAN_MOTIVATED: return "[page scan]"; case OMNIBOX_MOTIVATED: return "[omnibox]"; case STARTUP_LIST_MOTIVATED: return "[startup list]"; case NO_PREFETCH_MOTIVATION: return "n/a"; case STATIC_REFERAL_MOTIVATED: return RemoveJs(referring_url_.spec()) + "*"; case LEARNED_REFERAL_MOTIVATED: return RemoveJs(referring_url_.spec()); default: return std::string(); } } } // namespace chrome_browser_net