// Copyright (c) 2011 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/enumerate_modules_model_win.h" #include #include #include "base/command_line.h" #include "base/environment.h" #include "base/file_path.h" #include "base/file_version_info_win.h" #include "base/metrics/histogram.h" #include "base/string_number_conversions.h" #include "base/string_util.h" #include "base/time.h" #include "base/utf_string_conversions.h" #include "base/values.h" #include "base/version.h" #include "base/win/registry.h" #include "base/win/scoped_handle.h" #include "crypto/sha2.h" #include "chrome/browser/net/service_providers_win.h" #include "chrome/common/chrome_constants.h" #include "chrome/common/chrome_switches.h" #include "content/common/notification_service.h" #include "grit/generated_resources.h" #include "ui/base/l10n/l10n_util.h" // The period of time (in milliseconds) to wait until checking to see if any // incompatible modules exist. static const int kModuleCheckDelayMs = 60 * 1000; // The path to the Shell Extension key in the Windows registry. static const wchar_t kRegPath[] = L"Software\\Microsoft\\Windows\\CurrentVersion\\Shell Extensions\\Approved"; // Short-hand for things on the blacklist you should simply get rid of. static const ModuleEnumerator::RecommendedAction kUninstallLink = static_cast( ModuleEnumerator::UNINSTALL | ModuleEnumerator::SEE_LINK); // Short-hand for things on the blacklist we are investigating and have info. static const ModuleEnumerator::RecommendedAction kInvestigatingLink = static_cast( ModuleEnumerator::INVESTIGATING | ModuleEnumerator::SEE_LINK); // A sort method that sorts by bad modules first, then by full name (including // path). static bool ModuleSort(const ModuleEnumerator::Module& a, const ModuleEnumerator::Module& b) { if (a.status != b.status) return a.status > b.status; if (a.location == b.location) return a.name < b.name; return a.location < b.location; } namespace { // Used to protect the LoadedModuleVector which is accessed // from both the UI thread and the FILE thread. base::Lock* lock = NULL; // A struct to help de-duping modules before adding them to the enumerated // modules vector. struct FindModule { public: explicit FindModule(const ModuleEnumerator::Module& x) : module(x) {} bool operator()(const ModuleEnumerator::Module& module_in) const { return (module.location == module_in.location) && (module.name == module_in.name); } const ModuleEnumerator::Module& module; }; // Returns the long path name given a short path name. A short path name is a // path that follows the 8.3 convention and has ~x in it. If the path is already // a long path name, the function returns the current path without modification. bool ConvertToLongPath(const string16& short_path, string16* long_path) { wchar_t long_path_buf[MAX_PATH]; DWORD return_value = GetLongPathName(short_path.c_str(), long_path_buf, MAX_PATH); if (return_value != 0 && return_value < MAX_PATH) { *long_path = long_path_buf; return true; } return false; } } // namespace // The browser process module blacklist. This lists modules that are known // to cause compatibility issues within the browser process. When adding to this // list, make sure that all paths are lower-case, in long pathname form, end // with a slash and use environments variables (or just look at one of the // comments below and keep it consistent with that). When adding an entry with // an environment variable not currently used in the list below, make sure to // update the list in PreparePathMappings. Filename, Description/Signer, and // Location must be entered as hashes (see GenerateHash). Filename is mandatory. // Entries without any Description, Signer info, or Location will never be // marked as confirmed bad (only as suspicious). const ModuleEnumerator::BlacklistEntry ModuleEnumerator::kModuleBlacklist[] = { // NOTE: Please keep this list sorted by dll name, then location. // Version 3.2.1.6 seems to be implicated in most cases (and 3.2.2.2 in some). // There is a more recent version available for download. // accelerator.dll, "%programfiles%\\speedbit video accelerator\\". { "7ba9402f", "c9132d48", "", "", "", kInvestigatingLink }, // apiqq0.dll, "%temp%\\". { "26134911", "59145acf", "", "", "", kUninstallLink }, // arking0.dll, "%systemroot%\\system32\\". { "f5d8f549", "23d01d5b", "", "", "", kUninstallLink }, // arking1.dll, "%systemroot%\\system32\\". { "c60ca062", "23d01d5b", "", "", "", kUninstallLink }, // Said to belong to Killer NIC from BigFoot Networks (not verified). Versions // 6.0.0.7 and 6.0.0.10 implicated. // bfllr.dll, "%systemroot%\\system32\\". { "6bb57633", "23d01d5b", "", "", "", kInvestigatingLink }, // clickpotatolitesahook.dll, "". Different version each report. { "0396e037.dll", "", "", "", "", kUninstallLink }, // cvasds0.dll, "%temp%\\". { "5ce0037c", "59145acf", "", "", "", kUninstallLink }, // cwalsp.dll, "%systemroot%\\system32\\". { "e579a039", "23d01d5b", "", "", "", kUninstallLink }, // dsoqq0.dll, "%temp%\\". { "1c4df325", "59145acf", "", "", "", kUninstallLink }, // This looks like a malware edition of a Brazilian Bank plugin, sometimes // referred to as Malware.Banc.A. // gbieh.dll, "%programfiles%\\gbplugin\\". { "4cb4f2e3", "88e4a3b1", "", "", "", kUninstallLink }, // hblitesahook.dll. Each report has different version number in location. { "5d10b363", "", "", "", "", kUninstallLink }, // icf.dll, "%systemroot%\\system32\\". { "303825ed", "23d01d5b", "", "", "", INVESTIGATING }, // idmmbc.dll (IDM), "%systemroot%\\system32\\". See: http://crbug.com/26892/. { "b8dce5c3", "23d01d5b", "", "", "6.03", static_cast(UPDATE | DISABLE) }, // imon.dll (NOD32), "%systemroot%\\system32\\". See: http://crbug.com/21715. { "8f42f22e", "23d01d5b", "", "", "4.0", static_cast(UPDATE | DISABLE) }, // is3lsp.dll, "%commonprogramfiles%\\is3\\anti-spyware\\". { "7ffbdce9", "bc5673f2", "", "", "", static_cast(UPDATE | DISABLE | SEE_LINK) }, // jsi.dll, "%programfiles%\\profilecraze\\". { "f9555eea", "e3548061", "", "", "", kUninstallLink }, // kernel.dll, "%programfiles%\\contentwatch\\internet protection\\modules\\". { "ead2768e", "4e61ce60", "", "", "", INVESTIGATING }, // mgking0.dll, "%systemroot%\\system32\\". { "d0893e38", "23d01d5b", "", "", "", kUninstallLink }, // mgking0.dll, "%temp%\\". { "d0893e38", "59145acf", "", "", "", kUninstallLink }, // mgking1.dll, "%systemroot%\\system32\\". { "3e837222", "23d01d5b", "", "", "", kUninstallLink }, // mgking1.dll, "%temp%\\". { "3e837222", "59145acf", "", "", "", kUninstallLink }, // mstcipha.ime, "%systemroot%\\system32\\". { "5523579e", "23d01d5b", "", "", "", INVESTIGATING }, // mwtsp.dll, "%systemroot%\\system32\\". { "9830bff6", "23d01d5b", "", "", "", kUninstallLink }, // nodqq0.dll, "%temp%\\". { "b86ce04d", "59145acf", "", "", "", kUninstallLink }, // nProtect GameGuard Anti-cheat system. Every report has a different // location, since it is installed into and run from a game folder. Various // versions implicated. // npggnt.des, no fixed location. { "f2c8790d", "", "", "", "", kInvestigatingLink }, // nvlsp.dll, // "%programfiles%\\nvidia corporation\\networkaccessmanager\\bin32\\". { "37f907e2", "3ad0ff23", "", "", "", INVESTIGATING }, // post0.dll, "%systemroot%\\system32\\". { "7405c0c8", "23d01d5b", "", "", "", kUninstallLink }, // radhslib.dll (Naomi web filter), "%programfiles%\\rnamfler\\". // See http://crbug.com/12517. { "7edcd250", "0733dc3e", "", "", "", INVESTIGATING }, // rlls.dll, "%programfiles%\\relevantknowledge\\". { "a1ed94a7", "ea9d6b36", "", "", "", kUninstallLink }, // rooksdol.dll, "%programfiles%\\trusteer\\rapport\\bin\\". { "802aefef", "06120e13", "", "", "3.5.1008.40", INVESTIGATING }, // sdata.dll, "%programdata%\\srtserv\\". { "1936d5cc", "223c44be", "", "", "", kUninstallLink }, // searchtree.dll, // "%programfiles%\\contentwatch\\internet protection\\modules\\". { "f6915a31", "4e61ce60", "", "", "", INVESTIGATING }, // sgprxy.dll, "%commonprogramfiles%\\is3\\anti-spyware\\". { "005965ea", "bc5673f2", "", "", "", INVESTIGATING }, // swi_filter_0001.dll (Sophos Web Intelligence), // "%programfiles%\\sophos\\sophos anti-virus\\web intelligence\\". // A small random sample all showed version 1.0.5.0. { "61112d7b", "25fb120f", "", "", "", kInvestigatingLink }, // twking0.dll, "%systemroot%\\system32\\". { "0355549b", "23d01d5b", "", "", "", kUninstallLink }, // twking1.dll, "%systemroot%\\system32\\". { "02e44508", "23d01d5b", "", "", "", kUninstallLink }, // vksaver.dll, "%systemroot%\\system32\\". { "c4a784d5", "23d01d5b", "", "", "", kUninstallLink }, // vlsp.dll (Venturi Firewall?), "%systemroot%\\system32\\". { "2e4eb93d", "23d01d5b", "", "", "", INVESTIGATING }, // vmn3_1dn.dll, "%appdata%\\roaming\\vmndtxtb\\". { "bba2037d", "9ab68585", "", "", "", kUninstallLink }, // webanalyzer.dll, // "%programfiles%\\contentwatch\\internet protection\\modules\\". { "c70b697d", "4e61ce60", "", "", "", INVESTIGATING }, // wowst0.dll, "%systemroot%\\system32\\". { "38ad9963", "23d01d5b", "", "", "", kUninstallLink }, // wxbase28u_vc_cw.dll, "%systemroot%\\system32\\". { "e967210d", "23d01d5b", "", "", "", kUninstallLink }, }; // Generates an 8 digit hash from the input given. static void GenerateHash(const std::string& input, std::string* output) { if (input.empty()) { *output = ""; return; } uint8 hash[4]; crypto::SHA256HashString(input, hash, sizeof(hash)); *output = StringToLowerASCII(base::HexEncode(hash, sizeof(hash))); } // ----------------------------------------------------------------------------- // static void ModuleEnumerator::NormalizeModule(Module* module) { string16 path = module->location; if (!ConvertToLongPath(path, &module->location)) module->location = path; module->location = l10n_util::ToLower(module->location); // Location contains the filename, so the last slash is where the path // ends. size_t last_slash = module->location.find_last_of(L"\\"); if (last_slash != string16::npos) { module->name = module->location.substr(last_slash + 1); module->location = module->location.substr(0, last_slash + 1); } else { module->name = module->location; module->location.clear(); } // Some version strings have things like (win7_rtm.090713-1255) appended // to them. Remove that. size_t first_space = module->version.find_first_of(L" "); if (first_space != string16::npos) module->version = module->version.substr(0, first_space); module->normalized = true; } // static ModuleEnumerator::ModuleStatus ModuleEnumerator::Match( const ModuleEnumerator::Module& module, const ModuleEnumerator::BlacklistEntry& blacklisted) { // All modules must be normalized before matching against blacklist. DCHECK(module.normalized); // Filename is mandatory and version should not contain spaces. DCHECK(strlen(blacklisted.filename) > 0); DCHECK(!strstr(blacklisted.version_from, " ")); DCHECK(!strstr(blacklisted.version_to, " ")); std::string filename_hash, location_hash; GenerateHash(WideToUTF8(module.name), &filename_hash); GenerateHash(WideToUTF8(module.location), &location_hash); // Filenames are mandatory. Location is mandatory if given. if (filename_hash == blacklisted.filename && (std::string(blacklisted.location).empty() || location_hash == blacklisted.location)) { // We have a name match against the blacklist (and possibly location match // also), so check version. scoped_ptr module_version( Version::GetVersionFromString(UTF16ToASCII(module.version))); scoped_ptr version_min( Version::GetVersionFromString(blacklisted.version_from)); scoped_ptr version_max( Version::GetVersionFromString(blacklisted.version_to)); bool version_ok = !version_min.get() && !version_max.get(); if (!version_ok) { bool too_low = version_min.get() && (!module_version.get() || module_version->CompareTo(*version_min.get()) < 0); bool too_high = version_max.get() && (!module_version.get() || module_version->CompareTo(*version_max.get()) >= 0); version_ok = !too_low && !too_high; } if (version_ok) { // At this point, the names match and there is no version specified // or the versions also match. std::string desc_or_signer(blacklisted.desc_or_signer); std::string signer_hash, description_hash; GenerateHash(WideToUTF8(module.digital_signer), &signer_hash); GenerateHash(WideToUTF8(module.description), &description_hash); // If signatures match (or both are empty), then we have a winner. if (signer_hash == desc_or_signer) return CONFIRMED_BAD; // If descriptions match (or both are empty) and the locations match, then // we also have a confirmed match. if (description_hash == desc_or_signer && !location_hash.empty() && location_hash == blacklisted.location) { return CONFIRMED_BAD; } // We are not sure, but it is likely bad. return SUSPECTED_BAD; } } return NOT_MATCHED; } ModuleEnumerator::ModuleEnumerator(EnumerateModulesModel* observer) : enumerated_modules_(NULL), observer_(observer), limited_mode_(false), callback_thread_id_(BrowserThread::ID_COUNT) { } ModuleEnumerator::~ModuleEnumerator() { } void ModuleEnumerator::ScanNow(ModulesVector* list, bool limited_mode) { enumerated_modules_ = list; limited_mode_ = limited_mode; if (!limited_mode_) { CHECK(BrowserThread::GetCurrentThreadIdentifier(&callback_thread_id_)); DCHECK(!BrowserThread::CurrentlyOn(BrowserThread::FILE)); BrowserThread::PostTask( BrowserThread::FILE, FROM_HERE, NewRunnableMethod(this, &ModuleEnumerator::ScanImpl)); } else { // Run it synchronously. ScanImpl(); } } void ModuleEnumerator::ScanImpl() { base::TimeTicks start_time = base::TimeTicks::Now(); enumerated_modules_->clear(); // Make sure the path mapping vector is setup so we can collapse paths. PreparePathMappings(); // Enumerating loaded modules must happen first since the other types of // modules check for duplication against the loaded modules. base::TimeTicks checkpoint = base::TimeTicks::Now(); EnumerateLoadedModules(); base::TimeTicks checkpoint2 = base::TimeTicks::Now(); UMA_HISTOGRAM_TIMES("Conflicts.EnumerateLoadedModules", checkpoint2 - checkpoint); checkpoint = checkpoint2; EnumerateShellExtensions(); checkpoint2 = base::TimeTicks::Now(); UMA_HISTOGRAM_TIMES("Conflicts.EnumerateShellExtensions", checkpoint2 - checkpoint); checkpoint = checkpoint2; EnumerateWinsockModules(); checkpoint2 = base::TimeTicks::Now(); UMA_HISTOGRAM_TIMES("Conflicts.EnumerateWinsockModules", checkpoint2 - checkpoint); MatchAgainstBlacklist(); std::sort(enumerated_modules_->begin(), enumerated_modules_->end(), ModuleSort); if (!limited_mode_) { // Send a reply back on the UI thread. BrowserThread::PostTask( callback_thread_id_, FROM_HERE, NewRunnableMethod(this, &ModuleEnumerator::ReportBack)); } else { // We are on the main thread already. ReportBack(); } UMA_HISTOGRAM_TIMES("Conflicts.EnumerationTotalTime", base::TimeTicks::Now() - start_time); } void ModuleEnumerator::EnumerateLoadedModules() { // Get all modules in the current process. base::win::ScopedHandle snap(::CreateToolhelp32Snapshot(TH32CS_SNAPMODULE, ::GetCurrentProcessId())); if (!snap.Get()) return; // Walk the module list. MODULEENTRY32 module = { sizeof(module) }; if (!::Module32First(snap.Get(), &module)) return; do { // It would be weird to present chrome.exe as a loaded module. if (_wcsicmp(chrome::kBrowserProcessExecutableName, module.szModule) == 0) continue; Module entry; entry.type = LOADED_MODULE; entry.location = module.szExePath; PopulateModuleInformation(&entry); NormalizeModule(&entry); CollapsePath(&entry); enumerated_modules_->push_back(entry); } while (::Module32Next(snap.Get(), &module)); } void ModuleEnumerator::EnumerateShellExtensions() { ReadShellExtensions(HKEY_LOCAL_MACHINE); ReadShellExtensions(HKEY_CURRENT_USER); } void ModuleEnumerator::ReadShellExtensions(HKEY parent) { base::win::RegistryValueIterator registration(parent, kRegPath); while (registration.Valid()) { std::wstring key(std::wstring(L"CLSID\\") + registration.Name() + L"\\InProcServer32"); base::win::RegKey clsid; if (clsid.Open(HKEY_CLASSES_ROOT, key.c_str(), KEY_READ) != ERROR_SUCCESS) { ++registration; continue; } string16 dll; if (clsid.ReadValue(L"", &dll) != ERROR_SUCCESS) { ++registration; continue; } clsid.Close(); Module entry; entry.type = SHELL_EXTENSION; entry.location = dll; PopulateModuleInformation(&entry); NormalizeModule(&entry); CollapsePath(&entry); AddToListWithoutDuplicating(entry); ++registration; } } void ModuleEnumerator::EnumerateWinsockModules() { // Add to this list the Winsock LSP DLLs. WinsockLayeredServiceProviderList layered_providers; GetWinsockLayeredServiceProviders(&layered_providers); for (size_t i = 0; i < layered_providers.size(); ++i) { Module entry; entry.type = WINSOCK_MODULE_REGISTRATION; entry.status = NOT_MATCHED; entry.normalized = false; entry.location = layered_providers[i].path; entry.description = layered_providers[i].name; entry.recommended_action = NONE; entry.duplicate_count = 0; wchar_t expanded[MAX_PATH]; DWORD size = ExpandEnvironmentStrings( entry.location.c_str(), expanded, MAX_PATH); if (size != 0 && size <= MAX_PATH) { entry.digital_signer = GetSubjectNameFromDigitalSignature(FilePath(expanded)); } entry.version = base::IntToString16(layered_providers[i].version); // Paths have already been collapsed. NormalizeModule(&entry); AddToListWithoutDuplicating(entry); } } void ModuleEnumerator::PopulateModuleInformation(Module* module) { module->status = NOT_MATCHED; module->duplicate_count = 0; module->normalized = false; module->digital_signer = GetSubjectNameFromDigitalSignature(FilePath(module->location)); module->recommended_action = NONE; scoped_ptr version_info( FileVersionInfo::CreateFileVersionInfo(FilePath(module->location))); if (version_info.get()) { FileVersionInfoWin* version_info_win = static_cast(version_info.get()); VS_FIXEDFILEINFO* fixed_file_info = version_info_win->fixed_file_info(); if (fixed_file_info) { module->description = version_info_win->file_description(); module->version = version_info_win->file_version(); module->product_name = version_info_win->product_name(); } } } void ModuleEnumerator::AddToListWithoutDuplicating(const Module& module) { DCHECK(module.normalized); // These are registered modules, not loaded modules so the same module // can be registered multiple times, often dozens of times. There is no need // to list each registration, so we just increment the count for each module // that is counted multiple times. ModulesVector::iterator iter; iter = std::find_if(enumerated_modules_->begin(), enumerated_modules_->end(), FindModule(module)); if (iter != enumerated_modules_->end()) { iter->duplicate_count++; iter->type = static_cast(iter->type | module.type); } else { enumerated_modules_->push_back(module); } } void ModuleEnumerator::PreparePathMappings() { path_mapping_.clear(); scoped_ptr environment(base::Environment::Create()); std::vector env_vars; env_vars.push_back(L"LOCALAPPDATA"); env_vars.push_back(L"ProgramFiles"); env_vars.push_back(L"ProgramData"); env_vars.push_back(L"USERPROFILE"); env_vars.push_back(L"SystemRoot"); env_vars.push_back(L"TEMP"); env_vars.push_back(L"TMP"); env_vars.push_back(L"CommonProgramFiles"); for (std::vector::const_iterator variable = env_vars.begin(); variable != env_vars.end(); ++variable) { std::string path; if (environment->GetVar(WideToASCII(*variable).c_str(), &path)) { path_mapping_.push_back( std::make_pair(l10n_util::ToLower(UTF8ToWide(path)) + L"\\", L"%" + l10n_util::ToLower(*variable) + L"%")); } } } void ModuleEnumerator::CollapsePath(Module* entry) { // Take the path and see if we can use any of the substitution values // from the vector constructed above to replace c:\windows with, for // example, %systemroot%. The most collapsed path (the one with the // minimum length) wins. size_t min_length = MAXINT; string16 location = entry->location; for (PathMapping::const_iterator mapping = path_mapping_.begin(); mapping != path_mapping_.end(); ++mapping) { string16 prefix = mapping->first; if (StartsWith(location, prefix, false)) { string16 new_location = mapping->second + location.substr(prefix.length() - 1); size_t length = new_location.length() - mapping->second.length(); if (length < min_length) { entry->location = new_location; min_length = length; } } } } void ModuleEnumerator::MatchAgainstBlacklist() { for (size_t m = 0; m < enumerated_modules_->size(); ++m) { // Match this module against the blacklist. Module* module = &(*enumerated_modules_)[m]; module->status = GOOD; // We change this below potentially. for (size_t i = 0; i < arraysize(kModuleBlacklist); ++i) { #if !defined(NDEBUG) // This saves time when constructing the blacklist. std::string hashes(kModuleBlacklist[i].filename); std::string hash1, hash2, hash3; GenerateHash(kModuleBlacklist[i].filename, &hash1); hashes += " - " + hash1; GenerateHash(kModuleBlacklist[i].location, &hash2); hashes += " - " + hash2; GenerateHash(kModuleBlacklist[i].desc_or_signer, &hash3); hashes += " - " + hash3; #endif ModuleStatus status = Match(*module, kModuleBlacklist[i]); if (status != NOT_MATCHED) { // We have a match against the blacklist. Mark it as such. module->status = status; module->recommended_action = kModuleBlacklist[i].help_tip; break; } } // Modules loaded from these locations are frequently malicious // and notorious for changing frequently so they are not good candidates // for blacklisting individually. Mark them as suspicious if we haven't // classified them as bad yet. if (module->status == NOT_MATCHED || module->status == GOOD) { if (StartsWith(module->location, L"%temp%", false) || StartsWith(module->location, L"%tmp%", false)) { module->status = SUSPECTED_BAD; } } } } void ModuleEnumerator::ReportBack() { if (!limited_mode_) DCHECK(BrowserThread::CurrentlyOn(callback_thread_id_)); observer_->DoneScanning(); } string16 ModuleEnumerator::GetSubjectNameFromDigitalSignature( const FilePath& filename) { HCERTSTORE store = NULL; HCRYPTMSG message = NULL; // Find the crypto message for this filename. bool result = !!CryptQueryObject(CERT_QUERY_OBJECT_FILE, filename.value().c_str(), CERT_QUERY_CONTENT_FLAG_PKCS7_SIGNED_EMBED, CERT_QUERY_FORMAT_FLAG_BINARY, 0, NULL, NULL, NULL, &store, &message, NULL); if (!result) return string16(); // Determine the size of the signer info data. DWORD signer_info_size = 0; result = !!CryptMsgGetParam(message, CMSG_SIGNER_INFO_PARAM, 0, NULL, &signer_info_size); if (!result) return string16(); // Allocate enough space to hold the signer info. scoped_array signer_info_buffer(new BYTE[signer_info_size]); CMSG_SIGNER_INFO* signer_info = reinterpret_cast(signer_info_buffer.get()); // Obtain the signer info. result = !!CryptMsgGetParam(message, CMSG_SIGNER_INFO_PARAM, 0, signer_info, &signer_info_size); if (!result) return string16(); // Search for the signer certificate. CERT_INFO CertInfo = {0}; PCCERT_CONTEXT cert_context = NULL; CertInfo.Issuer = signer_info->Issuer; CertInfo.SerialNumber = signer_info->SerialNumber; cert_context = CertFindCertificateInStore( store, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_SUBJECT_CERT, &CertInfo, NULL); if (!cert_context) return string16(); // Determine the size of the Subject name. DWORD subject_name_size = 0; if (!(subject_name_size = CertGetNameString(cert_context, CERT_NAME_SIMPLE_DISPLAY_TYPE, 0, NULL, NULL, 0))) { return string16(); } string16 subject_name; subject_name.resize(subject_name_size); // Get subject name. if (!(CertGetNameString(cert_context, CERT_NAME_SIMPLE_DISPLAY_TYPE, 0, NULL, const_cast(subject_name.c_str()), subject_name_size))) { return string16(); } return subject_name; } // ---------------------------------------------------------------------------- // static EnumerateModulesModel* EnumerateModulesModel::GetInstance() { return Singleton::get(); } bool EnumerateModulesModel::ShouldShowConflictWarning() const { // If the user has acknowledged the conflict notification, then we don't need // to show it again (because the scanning only happens once per the lifetime // of the process). If we were to run the scanning more than once, then we'd // need to clear the flag somewhere when we are ready to show it again. if (conflict_notification_acknowledged_) return false; return confirmed_bad_modules_detected_ > 0; } void EnumerateModulesModel::AcknowledgeConflictNotification() { if (!conflict_notification_acknowledged_) { conflict_notification_acknowledged_ = true; NotificationService::current()->Notify( NotificationType::MODULE_INCOMPATIBILITY_BADGE_CHANGE, Source(this), NotificationService::NoDetails()); } } void EnumerateModulesModel::ScanNow() { if (scanning_) return; // A scan is already in progress. lock->Acquire(); // Balanced in DoneScanning(); scanning_ = true; // Instruct the ModuleEnumerator class to load this on the File thread. // ScanNow does not block. if (!module_enumerator_) module_enumerator_ = new ModuleEnumerator(this); module_enumerator_->ScanNow(&enumerated_modules_, limited_mode_); } ListValue* EnumerateModulesModel::GetModuleList() const { if (scanning_) return NULL; lock->Acquire(); if (enumerated_modules_.empty()) { lock->Release(); return NULL; } ListValue* list = new ListValue(); for (ModuleEnumerator::ModulesVector::const_iterator module = enumerated_modules_.begin(); module != enumerated_modules_.end(); ++module) { DictionaryValue* data = new DictionaryValue(); data->SetInteger("type", module->type); string16 type_string; if ((module->type & ModuleEnumerator::LOADED_MODULE) == 0) { // Module is not loaded, denote type of module. if (module->type & ModuleEnumerator::SHELL_EXTENSION) type_string = ASCIIToWide("Shell Extension"); if (module->type & ModuleEnumerator::WINSOCK_MODULE_REGISTRATION) { if (!type_string.empty()) type_string += ASCIIToWide(", "); type_string += ASCIIToWide("Winsock"); } // Must be one of the above type. DCHECK(!type_string.empty()); if (!limited_mode_) { type_string += ASCIIToWide(" -- "); type_string += l10n_util::GetStringUTF16(IDS_CONFLICTS_NOT_LOADED_YET); } } data->SetString("type_description", type_string); data->SetInteger("status", module->status); data->SetString("location", module->location); data->SetString("name", module->name); data->SetString("product_name", module->product_name); data->SetString("description", module->description); data->SetString("version", module->version); data->SetString("digital_signer", module->digital_signer); if (!limited_mode_) { // Figure out the possible resolution help string. string16 actions; string16 separator = ASCIIToWide(" ") + l10n_util::GetStringUTF16( IDS_CONFLICTS_CHECK_POSSIBLE_ACTION_SEPERATOR) + ASCIIToWide(" "); if (module->recommended_action & ModuleEnumerator::NONE) { actions = l10n_util::GetStringUTF16( IDS_CONFLICTS_CHECK_INVESTIGATING); } if (module->recommended_action & ModuleEnumerator::UNINSTALL) { if (!actions.empty()) actions += separator; actions = l10n_util::GetStringUTF16( IDS_CONFLICTS_CHECK_POSSIBLE_ACTION_UNINSTALL); } if (module->recommended_action & ModuleEnumerator::UPDATE) { if (!actions.empty()) actions += separator; actions += l10n_util::GetStringUTF16( IDS_CONFLICTS_CHECK_POSSIBLE_ACTION_UPDATE); } if (module->recommended_action & ModuleEnumerator::DISABLE) { if (!actions.empty()) actions += separator; actions += l10n_util::GetStringUTF16( IDS_CONFLICTS_CHECK_POSSIBLE_ACTION_DISABLE); } string16 possible_resolution = actions.empty() ? ASCIIToWide("") : l10n_util::GetStringUTF16(IDS_CONFLICTS_CHECK_POSSIBLE_ACTIONS) + ASCIIToWide(" ") + actions; data->SetString("possibleResolution", possible_resolution); data->SetString("help_url", ConstructHelpCenterUrl(*module).spec().c_str()); } list->Append(data); } lock->Release(); return list; } EnumerateModulesModel::EnumerateModulesModel() : limited_mode_(false), scanning_(false), conflict_notification_acknowledged_(false), confirmed_bad_modules_detected_(0), suspected_bad_modules_detected_(0) { const CommandLine& cmd_line = *CommandLine::ForCurrentProcess(); if (cmd_line.HasSwitch(switches::kConflictingModulesCheck)) { check_modules_timer_.Start( base::TimeDelta::FromMilliseconds(kModuleCheckDelayMs), this, &EnumerateModulesModel::ScanNow); } lock = new base::Lock(); } EnumerateModulesModel::~EnumerateModulesModel() { delete lock; } void EnumerateModulesModel::DoneScanning() { confirmed_bad_modules_detected_ = 0; suspected_bad_modules_detected_ = 0; for (ModuleEnumerator::ModulesVector::const_iterator module = enumerated_modules_.begin(); module != enumerated_modules_.end(); ++module) { if (module->status == ModuleEnumerator::CONFIRMED_BAD) ++confirmed_bad_modules_detected_; if (module->status == ModuleEnumerator::SUSPECTED_BAD) ++suspected_bad_modules_detected_; } scanning_ = false; lock->Release(); UMA_HISTOGRAM_COUNTS_100("Conflicts.SuspectedBadModules", suspected_bad_modules_detected_); UMA_HISTOGRAM_COUNTS_100("Conflicts.ConfirmedBadModules", confirmed_bad_modules_detected_); // Notifications are not available in limited mode. if (limited_mode_) return; NotificationService::current()->Notify( NotificationType::MODULE_LIST_ENUMERATED, Source(this), NotificationService::NoDetails()); // Command line flag must be enabled for the notification to get sent out. // Otherwise we'd get the badge (while the feature is disabled) when we // navigate to about:conflicts and find confirmed matches. const CommandLine& cmd_line = *CommandLine::ForCurrentProcess(); if (!cmd_line.HasSwitch(switches::kConflictingModulesCheck)) return; NotificationService::current()->Notify( NotificationType::MODULE_INCOMPATIBILITY_BADGE_CHANGE, Source(this), NotificationService::NoDetails()); } GURL EnumerateModulesModel::ConstructHelpCenterUrl( const ModuleEnumerator::Module& module) const { if (!(module.recommended_action & ModuleEnumerator::SEE_LINK)) return GURL(); // Construct the needed hashes. std::string filename, location, description, signer; GenerateHash(WideToUTF8(module.name), &filename); GenerateHash(WideToUTF8(module.location), &location); GenerateHash(WideToUTF8(module.description), &description); GenerateHash(WideToUTF8(module.digital_signer), &signer); string16 url = l10n_util::GetStringFUTF16(IDS_HELP_CENTER_VIEW_CONFLICTS, ASCIIToUTF16(filename), ASCIIToUTF16(location), ASCIIToUTF16(description), ASCIIToUTF16(signer)); return GURL(UTF16ToUTF8(url)); }