// Copyright (c) 2006-2008 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/metrics/metrics_log.h"
#include "base/basictypes.h"
#include "base/file_util.h"
#include "base/file_version_info.h"
#include "base/md5.h"
#include "base/scoped_ptr.h"
#include "base/string_util.h"
#include "base/sys_info.h"
#include "chrome/browser/autocomplete/autocomplete.h"
#include "chrome/browser/browser_process.h"
#include "chrome/common/logging_chrome.h"
#include "chrome/common/pref_names.h"
#include "chrome/common/pref_service.h"
#include "googleurl/src/gurl.h"
#include "net/base/base64.h"
#define OPEN_ELEMENT_FOR_SCOPE(name) ScopedElement scoped_element(this, name)
using base::Time;
using base::TimeDelta;
// http://blogs.msdn.com/oldnewthing/archive/2004/10/25/247180.aspx
#if defined(OS_WIN)
extern "C" IMAGE_DOS_HEADER __ImageBase;
#endif
// libxml take xmlChar*, which is unsigned char*
inline const unsigned char* UnsignedChar(const char* input) {
return reinterpret_cast<const unsigned char*>(input);
}
// static
void MetricsLog::RegisterPrefs(PrefService* local_state) {
local_state->RegisterListPref(prefs::kStabilityPluginStats);
}
MetricsLog::MetricsLog(const std::string& client_id, int session_id)
: start_time_(Time::Now()),
client_id_(client_id),
session_id_(IntToString(session_id)),
locked_(false),
buffer_(NULL),
writer_(NULL),
num_events_(0) {
buffer_ = xmlBufferCreate();
DCHECK(buffer_);
writer_ = xmlNewTextWriterMemory(buffer_, 0);
DCHECK(writer_);
int result = xmlTextWriterSetIndent(writer_, 2);
DCHECK_EQ(0, result);
StartElement("log");
WriteAttribute("clientid", client_id_);
DCHECK_GE(result, 0);
}
MetricsLog::~MetricsLog() {
if (writer_)
xmlFreeTextWriter(writer_);
if (buffer_)
xmlBufferFree(buffer_);
}
void MetricsLog::CloseLog() {
DCHECK(!locked_);
locked_ = true;
int result = xmlTextWriterEndDocument(writer_);
DCHECK(result >= 0);
result = xmlTextWriterFlush(writer_);
DCHECK(result >= 0);
}
int MetricsLog::GetEncodedLogSize() {
DCHECK(locked_);
return buffer_->use;
}
bool MetricsLog::GetEncodedLog(char* buffer, int buffer_size) {
DCHECK(locked_);
if (buffer_size < GetEncodedLogSize())
return false;
memcpy(buffer, buffer_->content, GetEncodedLogSize());
return true;
}
int MetricsLog::GetElapsedSeconds() {
return static_cast<int>((Time::Now() - start_time_).InSeconds());
}
std::string MetricsLog::CreateHash(const std::string& value) {
MD5Context ctx;
MD5Init(&ctx);
MD5Update(&ctx, value.data(), value.length());
MD5Digest digest;
MD5Final(&digest, &ctx);
uint64 reverse_uint64;
// UMA only uses first 8 chars of hash. We use the above uint64 instead
// of a unsigned char[8] so that we don't run into strict aliasing issues
// in the LOG statement below when trying to interpret reverse as a uint64.
unsigned char* reverse = reinterpret_cast<unsigned char *>(&reverse_uint64);
DCHECK(arraysize(digest.a) >= sizeof(reverse_uint64));
for (size_t i = 0; i < sizeof(reverse_uint64); ++i)
reverse[i] = digest.a[sizeof(reverse_uint64) - i - 1];
// The following log is VERY helpful when folks add some named histogram into
// the code, but forgot to update the descriptive list of histograms. When
// that happens, all we get to see (server side) is a hash of the histogram
// name. We can then use this logging to find out what histogram name was
// being hashed to a given MD5 value by just running the version of Chromium
// in question with --enable-logging.
LOG(INFO) << "Metrics: Hash numeric [" << value << "]=["
<< reverse_uint64 << "]";
return std::string(reinterpret_cast<char*>(digest.a), arraysize(digest.a));
}
std::string MetricsLog::CreateBase64Hash(const std::string& string) {
std::string encoded_digest;
if (net::Base64Encode(CreateHash(string), &encoded_digest)) {
DLOG(INFO) << "Metrics: Hash [" << encoded_digest << "]=[" << string << "]";
return encoded_digest;
}
return std::string();
}
void MetricsLog::RecordUserAction(const wchar_t* key) {
DCHECK(!locked_);
std::string command_hash = CreateBase64Hash(WideToUTF8(key));
if (command_hash.empty()) {
NOTREACHED() << "Unable generate encoded hash of command: " << key;
return;
}
OPEN_ELEMENT_FOR_SCOPE("uielement");
WriteAttribute("action", "command");
WriteAttribute("targetidhash", command_hash);
// TODO(jhughes): Properly track windows.
WriteIntAttribute("window", 0);
WriteCommonEventAttributes();
++num_events_;
}
void MetricsLog::RecordLoadEvent(int window_id,
const GURL& url,
PageTransition::Type origin,
int session_index,
TimeDelta load_time) {
DCHECK(!locked_);
OPEN_ELEMENT_FOR_SCOPE("document");
WriteAttribute("action", "load");
WriteIntAttribute("docid", session_index);
WriteIntAttribute("window", window_id);
WriteAttribute("loadtime", Int64ToString(load_time.InMilliseconds()));
std::string origin_string;
switch (PageTransition::StripQualifier(origin)) {
// TODO(jhughes): Some of these mappings aren't right... we need to add
// some values to the server's enum.
case PageTransition::LINK:
case PageTransition::MANUAL_SUBFRAME:
origin_string = "link";
break;
case PageTransition::TYPED:
origin_string = "typed";
break;
case PageTransition::AUTO_BOOKMARK:
origin_string = "bookmark";
break;
case PageTransition::AUTO_SUBFRAME:
case PageTransition::RELOAD:
origin_string = "refresh";
break;
case PageTransition::GENERATED:
case PageTransition::KEYWORD:
origin_string = "global-history";
break;
case PageTransition::START_PAGE:
origin_string = "start-page";
break;
case PageTransition::FORM_SUBMIT:
origin_string = "form-submit";
break;
default:
NOTREACHED() << "Received an unknown page transition type: " <<
PageTransition::StripQualifier(origin);
}
if (!origin_string.empty())
WriteAttribute("origin", origin_string);
WriteCommonEventAttributes();
++num_events_;
}
void MetricsLog::RecordWindowEvent(WindowEventType type,
int window_id,
int parent_id) {
DCHECK(!locked_);
OPEN_ELEMENT_FOR_SCOPE("window");
WriteAttribute("action", WindowEventTypeToString(type));
WriteAttribute("windowid", IntToString(window_id));
if (parent_id >= 0)
WriteAttribute("parent", IntToString(parent_id));
WriteCommonEventAttributes();
++num_events_;
}
std::string MetricsLog::GetCurrentTimeString() {
return Uint64ToString(Time::Now().ToTimeT());
}
// These are the attributes that are common to every event.
void MetricsLog::WriteCommonEventAttributes() {
WriteAttribute("session", session_id_);
WriteAttribute("time", GetCurrentTimeString());
}
void MetricsLog::WriteAttribute(const std::string& name,
const std::string& value) {
DCHECK(!locked_);
DCHECK(!name.empty());
int result = xmlTextWriterWriteAttribute(writer_,
UnsignedChar(name.c_str()),
UnsignedChar(value.c_str()));
DCHECK_GE(result, 0);
}
void MetricsLog::WriteIntAttribute(const std::string& name, int value) {
WriteAttribute(name, IntToString(value));
}
void MetricsLog::WriteInt64Attribute(const std::string& name, int64 value) {
WriteAttribute(name, Int64ToString(value));
}
// static
const char* MetricsLog::WindowEventTypeToString(WindowEventType type) {
switch (type) {
case WINDOW_CREATE: return "create";
case WINDOW_OPEN: return "open";
case WINDOW_CLOSE: return "close";
case WINDOW_DESTROY: return "destroy";
default:
NOTREACHED();
return "unknown"; // Can't return NULL as this is used in a required
// attribute.
}
}
void MetricsLog::StartElement(const char* name) {
DCHECK(!locked_);
DCHECK(name);
int result = xmlTextWriterStartElement(writer_, UnsignedChar(name));
DCHECK_GE(result, 0);
}
void MetricsLog::EndElement() {
DCHECK(!locked_);
int result = xmlTextWriterEndElement(writer_);
DCHECK_GE(result, 0);
}
// static
std::string MetricsLog::GetVersionString() {
scoped_ptr<FileVersionInfo> version_info(
FileVersionInfo::CreateFileVersionInfoForCurrentModule());
if (version_info.get()) {
std::string version = WideToUTF8(version_info->product_version());
if (!version_info->is_official_build())
version.append("-devel");
return version;
} else {
NOTREACHED() << "Unable to retrieve version string.";
}
return std::string();
}
std::string MetricsLog::GetInstallDate() const {
PrefService* pref = g_browser_process->local_state();
if (pref) {
return WideToUTF8(pref->GetString(prefs::kMetricsClientIDTimestamp));
} else {
NOTREACHED();
return "0";
}
}
void MetricsLog::RecordIncrementalStabilityElements() {
DCHECK(!locked_);
PrefService* pref = g_browser_process->local_state();
DCHECK(pref);
OPEN_ELEMENT_FOR_SCOPE("profile");
WriteCommonEventAttributes();
WriteInstallElement(); // Supply appversion.
{
OPEN_ELEMENT_FOR_SCOPE("stability"); // Minimal set of stability elements.
WriteRequiredStabilityAttributes(pref);
WriteRealtimeStabilityAttributes(pref);
WritePluginStabilityElements(pref);
}
}
void MetricsLog::WriteStabilityElement() {
DCHECK(!locked_);
PrefService* pref = g_browser_process->local_state();
DCHECK(pref);
// Get stability attributes out of Local State, zeroing out stored values.
// NOTE: This could lead to some data loss if this report isn't successfully
// sent, but that's true for all the metrics.
OPEN_ELEMENT_FOR_SCOPE("stability");
WriteRequiredStabilityAttributes(pref);
WriteRealtimeStabilityAttributes(pref);
// TODO(jar): The following are all optional, so we *could* optimize them for
// values of zero (and not include them).
WriteIntAttribute("incompleteshutdowncount",
pref->GetInteger(
prefs::kStabilityIncompleteSessionEndCount));
pref->SetInteger(prefs::kStabilityIncompleteSessionEndCount, 0);
WriteIntAttribute("breakpadregistrationok",
pref->GetInteger(prefs::kStabilityBreakpadRegistrationSuccess));
pref->SetInteger(prefs::kStabilityBreakpadRegistrationSuccess, 0);
WriteIntAttribute("breakpadregistrationfail",
pref->GetInteger(prefs::kStabilityBreakpadRegistrationFail));
pref->SetInteger(prefs::kStabilityBreakpadRegistrationFail, 0);
WriteIntAttribute("debuggerpresent",
pref->GetInteger(prefs::kStabilityDebuggerPresent));
pref->SetInteger(prefs::kStabilityDebuggerPresent, 0);
WriteIntAttribute("debuggernotpresent",
pref->GetInteger(prefs::kStabilityDebuggerNotPresent));
pref->SetInteger(prefs::kStabilityDebuggerNotPresent, 0);
// Uptime is stored as a string, since there's no int64 in Value/JSON.
WriteAttribute("uptimesec",
WideToUTF8(pref->GetString(prefs::kStabilityUptimeSec)));
pref->SetString(prefs::kStabilityUptimeSec, L"0");
WritePluginStabilityElements(pref);
}
void MetricsLog::WritePluginStabilityElements(PrefService* pref) {
// Now log plugin stability info.
const ListValue* plugin_stats_list = pref->GetList(
prefs::kStabilityPluginStats);
if (plugin_stats_list) {
OPEN_ELEMENT_FOR_SCOPE("plugins");
for (ListValue::const_iterator iter = plugin_stats_list->begin();
iter != plugin_stats_list->end(); ++iter) {
if (!(*iter)->IsType(Value::TYPE_DICTIONARY)) {
NOTREACHED();
continue;
}
DictionaryValue* plugin_dict = static_cast<DictionaryValue*>(*iter);
std::wstring plugin_name;
plugin_dict->GetString(prefs::kStabilityPluginName, &plugin_name);
OPEN_ELEMENT_FOR_SCOPE("pluginstability");
// Use "filename" instead of "name", otherwise we need to update the
// UMA servers.
WriteAttribute("filename", CreateBase64Hash(WideToUTF8(plugin_name)));
int launches = 0;
plugin_dict->GetInteger(prefs::kStabilityPluginLaunches, &launches);
WriteIntAttribute("launchcount", launches);
int instances = 0;
plugin_dict->GetInteger(prefs::kStabilityPluginInstances, &instances);
WriteIntAttribute("instancecount", instances);
int crashes = 0;
plugin_dict->GetInteger(prefs::kStabilityPluginCrashes, &crashes);
WriteIntAttribute("crashcount", crashes);
}
pref->ClearPref(prefs::kStabilityPluginStats);
}
}
void MetricsLog::WriteRequiredStabilityAttributes(PrefService* pref) {
// The server refuses data that doesn't have certain values. crashcount and
// launchcount are currently "required" in the "stability" group.
WriteIntAttribute("launchcount",
pref->GetInteger(prefs::kStabilityLaunchCount));
pref->SetInteger(prefs::kStabilityLaunchCount, 0);
WriteIntAttribute("crashcount",
pref->GetInteger(prefs::kStabilityCrashCount));
pref->SetInteger(prefs::kStabilityCrashCount, 0);
}
void MetricsLog::WriteRealtimeStabilityAttributes(PrefService* pref) {
// Update the stats which are critical for real-time stability monitoring.
// Since these are "optional," only list ones that are non-zero, as the counts
// are aggergated (summed) server side.
int count = pref->GetInteger(prefs::kStabilityPageLoadCount);
if (count) {
WriteIntAttribute("pageloadcount", count);
pref->SetInteger(prefs::kStabilityPageLoadCount, 0);
}
count = pref->GetInteger(prefs::kStabilityRendererCrashCount);
if (count) {
WriteIntAttribute("renderercrashcount", count);
pref->SetInteger(prefs::kStabilityRendererCrashCount, 0);
}
count = pref->GetInteger(prefs::kStabilityRendererHangCount);
if (count) {
WriteIntAttribute("rendererhangcount", count);
pref->SetInteger(prefs::kStabilityRendererHangCount, 0);
}
}
void MetricsLog::WritePluginList(
const std::vector<WebPluginInfo>& plugin_list) {
DCHECK(!locked_);
OPEN_ELEMENT_FOR_SCOPE("plugins");
for (std::vector<WebPluginInfo>::const_iterator iter = plugin_list.begin();
iter != plugin_list.end(); ++iter) {
OPEN_ELEMENT_FOR_SCOPE("plugin");
// Plugin name and filename are hashed for the privacy of those
// testing unreleased new extensions.
WriteAttribute("name", CreateBase64Hash(WideToUTF8(iter->name)));
WriteAttribute("filename",
CreateBase64Hash(WideToUTF8(iter->path.BaseName().ToWStringHack())));
WriteAttribute("version", WideToUTF8(iter->version));
}
}
void MetricsLog::WriteInstallElement() {
OPEN_ELEMENT_FOR_SCOPE("install");
WriteAttribute("installdate", GetInstallDate());
WriteIntAttribute("buildid", 0); // We're using appversion instead.
WriteAttribute("appversion", GetVersionString());
}
void MetricsLog::RecordEnvironment(
const std::vector<WebPluginInfo>& plugin_list,
const DictionaryValue* profile_metrics) {
DCHECK(!locked_);
PrefService* pref = g_browser_process->local_state();
OPEN_ELEMENT_FOR_SCOPE("profile");
WriteCommonEventAttributes();
WriteInstallElement();
WritePluginList(plugin_list);
WriteStabilityElement();
{
OPEN_ELEMENT_FOR_SCOPE("cpu");
WriteAttribute("arch", base::SysInfo::CPUArchitecture());
}
{
OPEN_ELEMENT_FOR_SCOPE("security");
WriteIntAttribute("rendereronsboxdesktop",
pref->GetInteger(prefs::kSecurityRendererOnSboxDesktop));
pref->SetInteger(prefs::kSecurityRendererOnSboxDesktop, 0);
WriteIntAttribute("rendererondefaultdesktop",
pref->GetInteger(prefs::kSecurityRendererOnDefaultDesktop));
pref->SetInteger(prefs::kSecurityRendererOnDefaultDesktop, 0);
}
{
OPEN_ELEMENT_FOR_SCOPE("memory");
WriteIntAttribute("mb", base::SysInfo::AmountOfPhysicalMemoryMB());
#if defined(OS_WIN)
WriteIntAttribute("dllbase", reinterpret_cast<int>(&__ImageBase));
#endif
}
{
OPEN_ELEMENT_FOR_SCOPE("os");
WriteAttribute("name",
base::SysInfo::OperatingSystemName());
WriteAttribute("version",
base::SysInfo::OperatingSystemVersion());
}
{
OPEN_ELEMENT_FOR_SCOPE("display");
int width = 0;
int height = 0;
base::SysInfo::GetPrimaryDisplayDimensions(&width, &height);
WriteIntAttribute("xsize", width);
WriteIntAttribute("ysize", height);
WriteIntAttribute("screens", base::SysInfo::DisplayCount());
}
{
OPEN_ELEMENT_FOR_SCOPE("bookmarks");
int num_bookmarks_on_bookmark_bar =
pref->GetInteger(prefs::kNumBookmarksOnBookmarkBar);
int num_folders_on_bookmark_bar =
pref->GetInteger(prefs::kNumFoldersOnBookmarkBar);
int num_bookmarks_in_other_bookmarks_folder =
pref->GetInteger(prefs::kNumBookmarksInOtherBookmarkFolder);
int num_folders_in_other_bookmarks_folder =
pref->GetInteger(prefs::kNumFoldersInOtherBookmarkFolder);
{
OPEN_ELEMENT_FOR_SCOPE("bookmarklocation");
WriteAttribute("name", "full-tree");
WriteIntAttribute("foldercount",
num_folders_on_bookmark_bar + num_folders_in_other_bookmarks_folder);
WriteIntAttribute("itemcount",
num_bookmarks_on_bookmark_bar +
num_bookmarks_in_other_bookmarks_folder);
}
{
OPEN_ELEMENT_FOR_SCOPE("bookmarklocation");
WriteAttribute("name", "toolbar");
WriteIntAttribute("foldercount", num_folders_on_bookmark_bar);
WriteIntAttribute("itemcount", num_bookmarks_on_bookmark_bar);
}
}
{
OPEN_ELEMENT_FOR_SCOPE("keywords");
WriteIntAttribute("count", pref->GetInteger(prefs::kNumKeywords));
}
if (profile_metrics)
WriteAllProfilesMetrics(*profile_metrics);
}
void MetricsLog::WriteAllProfilesMetrics(
const DictionaryValue& all_profiles_metrics) {
const std::wstring profile_prefix(prefs::kProfilePrefix);
for (DictionaryValue::key_iterator i = all_profiles_metrics.begin_keys();
i != all_profiles_metrics.end_keys(); ++i) {
const std::wstring& key_name = *i;
if (key_name.compare(0, profile_prefix.size(), profile_prefix) == 0) {
DictionaryValue* profile;
if (all_profiles_metrics.GetDictionary(key_name, &profile))
WriteProfileMetrics(key_name.substr(profile_prefix.size()), *profile);
}
}
}
void MetricsLog::WriteProfileMetrics(const std::wstring& profileidhash,
const DictionaryValue& profile_metrics) {
OPEN_ELEMENT_FOR_SCOPE("userprofile");
WriteAttribute("profileidhash", WideToUTF8(profileidhash));
for (DictionaryValue::key_iterator i = profile_metrics.begin_keys();
i != profile_metrics.end_keys(); ++i) {
Value* value;
if (profile_metrics.Get(*i, &value)) {
DCHECK(*i != L"id");
switch (value->GetType()) {
case Value::TYPE_STRING: {
std::string string_value;
if (value->GetAsString(&string_value)) {
OPEN_ELEMENT_FOR_SCOPE("profileparam");
WriteAttribute("name", WideToUTF8(*i));
WriteAttribute("value", string_value);
}
break;
}
case Value::TYPE_BOOLEAN: {
bool bool_value;
if (value->GetAsBoolean(&bool_value)) {
OPEN_ELEMENT_FOR_SCOPE("profileparam");
WriteAttribute("name", WideToUTF8(*i));
WriteIntAttribute("value", bool_value ? 1 : 0);
}
break;
}
case Value::TYPE_INTEGER: {
int int_value;
if (value->GetAsInteger(&int_value)) {
OPEN_ELEMENT_FOR_SCOPE("profileparam");
WriteAttribute("name", WideToUTF8(*i));
WriteIntAttribute("value", int_value);
}
break;
}
default:
NOTREACHED();
break;
}
}
}
}
void MetricsLog::RecordOmniboxOpenedURL(const AutocompleteLog& log) {
DCHECK(!locked_);
OPEN_ELEMENT_FOR_SCOPE("uielement");
WriteAttribute("action", "autocomplete");
WriteAttribute("targetidhash", "");
// TODO(kochi): Properly track windows.
WriteIntAttribute("window", 0);
WriteCommonEventAttributes();
{
OPEN_ELEMENT_FOR_SCOPE("autocomplete");
WriteIntAttribute("typedlength", static_cast<int>(log.text.length()));
WriteIntAttribute("selectedindex", static_cast<int>(log.selected_index));
WriteIntAttribute("completedlength",
static_cast<int>(log.inline_autocompleted_length));
const std::string input_type(
AutocompleteInput::TypeToString(log.input_type));
if (!input_type.empty())
WriteAttribute("inputtype", input_type);
for (AutocompleteResult::const_iterator i(log.result.begin());
i != log.result.end(); ++i) {
OPEN_ELEMENT_FOR_SCOPE("autocompleteitem");
if (i->provider)
WriteAttribute("provider", i->provider->name());
const std::string result_type(AutocompleteMatch::TypeToString(i->type));
if (!result_type.empty())
WriteAttribute("resulttype", result_type);
WriteIntAttribute("relevance", i->relevance);
WriteIntAttribute("isstarred", i->starred ? 1 : 0);
}
}
++num_events_;
}
// TODO(JAR): A The following should really be part of the histogram class.
// Internal state is being needlessly exposed, and it would be hard to reuse
// this code. If we moved this into the Histogram class, then we could use
// the same infrastructure for logging StatsCounters, RatesCounters, etc.
void MetricsLog::RecordHistogramDelta(const Histogram& histogram,
const Histogram::SampleSet& snapshot) {
DCHECK(!locked_);
DCHECK(0 != snapshot.TotalCount());
snapshot.CheckSize(histogram);
// We will ignore the MAX_INT/infinite value in the last element of range[].
OPEN_ELEMENT_FOR_SCOPE("histogram");
WriteAttribute("name", CreateBase64Hash(histogram.histogram_name()));
WriteInt64Attribute("sum", snapshot.sum());
WriteInt64Attribute("sumsquares", snapshot.square_sum());
for (size_t i = 0; i < histogram.bucket_count(); i++) {
if (snapshot.counts(i)) {
OPEN_ELEMENT_FOR_SCOPE("histogrambucket");
WriteIntAttribute("min", histogram.ranges(i));
WriteIntAttribute("max", histogram.ranges(i + 1));
WriteIntAttribute("count", snapshot.counts(i));
}
}
}