// Copyright (c) 2015 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 "components/safe_browsing_db/util.h" #include #include "base/macros.h" #include "base/strings/string_util.h" #include "base/trace_event/trace_event.h" #include "crypto/sha2.h" #include "net/base/escape.h" #include "url/gurl.h" #include "url/url_util.h" namespace safe_browsing { // Utility functions ----------------------------------------------------------- namespace { bool IsKnownList(const std::string& name) { for (size_t i = 0; i < arraysize(kAllLists); ++i) { if (!strcmp(kAllLists[i], name.c_str())) { return true; } } return false; } } // namespace // ThreatMetadata ------------------------------------------------------------ ThreatMetadata::ThreatMetadata() : threat_pattern_type(ThreatPatternType::NONE) {} ThreatMetadata::ThreatMetadata(const ThreatMetadata& other) = default; ThreatMetadata::~ThreatMetadata() {} // SBCachedFullHashResult ------------------------------------------------------ SBCachedFullHashResult::SBCachedFullHashResult() {} SBCachedFullHashResult::SBCachedFullHashResult( const base::Time& in_expire_after) : expire_after(in_expire_after) {} SBCachedFullHashResult::SBCachedFullHashResult( const SBCachedFullHashResult& other) = default; SBCachedFullHashResult::~SBCachedFullHashResult() {} // Listnames that browser can process. const char kMalwareList[] = "goog-malware-shavar"; const char kPhishingList[] = "goog-phish-shavar"; const char kBinUrlList[] = "goog-badbinurl-shavar"; const char kCsdWhiteList[] = "goog-csdwhite-sha256"; const char kDownloadWhiteList[] = "goog-downloadwhite-digest256"; const char kExtensionBlacklist[] = "goog-badcrxids-digestvar"; const char kIPBlacklist[] = "goog-badip-digest256"; const char kUnwantedUrlList[] = "goog-unwanted-shavar"; const char kInclusionWhitelist[] = "goog-csdinclusionwhite-sha256"; const char kModuleWhitelist[] = "goog-whitemodule-digest256"; const char kResourceBlacklist[] = "goog-badresource-shavar"; const char* kAllLists[11] = { kMalwareList, kPhishingList, kBinUrlList, kCsdWhiteList, kDownloadWhiteList, kExtensionBlacklist, kIPBlacklist, kUnwantedUrlList, kInclusionWhitelist, kModuleWhitelist, kResourceBlacklist, }; ListType GetListId(const base::StringPiece& name) { ListType id; if (name == kMalwareList) { id = MALWARE; } else if (name == kPhishingList) { id = PHISH; } else if (name == kBinUrlList) { id = BINURL; } else if (name == kCsdWhiteList) { id = CSDWHITELIST; } else if (name == kDownloadWhiteList) { id = DOWNLOADWHITELIST; } else if (name == kExtensionBlacklist) { id = EXTENSIONBLACKLIST; } else if (name == kIPBlacklist) { id = IPBLACKLIST; } else if (name == kUnwantedUrlList) { id = UNWANTEDURL; } else if (name == kInclusionWhitelist) { id = INCLUSIONWHITELIST; } else if (name == kModuleWhitelist) { id = MODULEWHITELIST; } else if (name == kResourceBlacklist) { id = RESOURCEBLACKLIST; } else { id = INVALID; } return id; } bool GetListName(ListType list_id, std::string* list) { switch (list_id) { case MALWARE: *list = kMalwareList; break; case PHISH: *list = kPhishingList; break; case BINURL: *list = kBinUrlList; break; case CSDWHITELIST: *list = kCsdWhiteList; break; case DOWNLOADWHITELIST: *list = kDownloadWhiteList; break; case EXTENSIONBLACKLIST: *list = kExtensionBlacklist; break; case IPBLACKLIST: *list = kIPBlacklist; break; case UNWANTEDURL: *list = kUnwantedUrlList; break; case INCLUSIONWHITELIST: *list = kInclusionWhitelist; break; case MODULEWHITELIST: *list = kModuleWhitelist; case RESOURCEBLACKLIST: *list = kResourceBlacklist; break; default: return false; } DCHECK(IsKnownList(*list)); return true; } SBFullHash SBFullHashForString(const base::StringPiece& str) { SBFullHash h; crypto::SHA256HashString(str, &h.full_hash, sizeof(h.full_hash)); return h; } SBFullHash StringToSBFullHash(const std::string& hash_in) { DCHECK_EQ(crypto::kSHA256Length, hash_in.size()); SBFullHash hash_out; memcpy(hash_out.full_hash, hash_in.data(), crypto::kSHA256Length); return hash_out; } std::string SBFullHashToString(const SBFullHash& hash) { DCHECK_EQ(crypto::kSHA256Length, sizeof(hash.full_hash)); return std::string(hash.full_hash, sizeof(hash.full_hash)); } std::string Unescape(const std::string& url) { std::string unescaped_str(url); const int kMaxLoopIterations = 1024; size_t old_size = 0; int loop_var = 0; do { old_size = unescaped_str.size(); unescaped_str = net::UnescapeURLComponent( unescaped_str, net::UnescapeRule::SPOOFING_AND_CONTROL_CHARS | net::UnescapeRule::SPACES | net::UnescapeRule::PATH_SEPARATORS | net::UnescapeRule::URL_SPECIAL_CHARS_EXCEPT_PATH_SEPARATORS); } while (old_size != unescaped_str.size() && ++loop_var <= kMaxLoopIterations); return unescaped_str; } std::string Escape(const std::string& url) { std::string escaped_str; // The escaped string is larger so allocate double the length to reduce the // chance of the string being grown. escaped_str.reserve(url.length() * 2); const char* kHexString = "0123456789ABCDEF"; for (size_t i = 0; i < url.length(); i++) { unsigned char c = static_cast(url[i]); if (c <= ' ' || c > '~' || c == '#' || c == '%') { escaped_str += '%'; escaped_str += kHexString[c >> 4]; escaped_str += kHexString[c & 0xf]; } else { escaped_str += c; } } return escaped_str; } std::string RemoveConsecutiveChars(base::StringPiece str, const char c) { std::string output; // Output is at most the length of the original string. output.reserve(str.size()); size_t i = 0; while (i < str.size()) { output.append(1, str[i++]); if (str[i - 1] == c) { while (i < str.size() && str[i] == c) { i++; } } } return output; } // Canonicalizes url as per Google Safe Browsing Specification. // See section 6.1 in // http://code.google.com/p/google-safe-browsing/wiki/Protocolv2Spec. void CanonicalizeUrl(const GURL& url, std::string* canonicalized_hostname, std::string* canonicalized_path, std::string* canonicalized_query) { DCHECK(url.is_valid()); // We only canonicalize "normal" URLs. if (!url.IsStandard()) return; // Following canonicalization steps are excluded since url parsing takes care // of those :- // 1. Remove any tab (0x09), CR (0x0d), and LF (0x0a) chars from url. // (Exclude escaped version of these chars). // 2. Normalize hostname to 4 dot-seperated decimal values. // 3. Lowercase hostname. // 4. Resolve path sequences "/../" and "/./". // That leaves us with the following :- // 1. Remove fragment in URL. GURL url_without_fragment; GURL::Replacements f_replacements; f_replacements.ClearRef(); f_replacements.ClearUsername(); f_replacements.ClearPassword(); url_without_fragment = url.ReplaceComponents(f_replacements); // 2. Do URL unescaping until no more hex encoded characters exist. std::string url_unescaped_str(Unescape(url_without_fragment.spec())); url::Parsed parsed; url::ParseStandardURL(url_unescaped_str.data(), url_unescaped_str.length(), &parsed); // 3. In hostname, remove all leading and trailing dots. base::StringPiece host; if (parsed.host.len > 0) host.set(url_unescaped_str.data() + parsed.host.begin, parsed.host.len); base::StringPiece host_without_end_dots = base::TrimString(host, ".", base::TrimPositions::TRIM_ALL); // 4. In hostname, replace consecutive dots with a single dot. std::string host_without_consecutive_dots(RemoveConsecutiveChars( host_without_end_dots, '.')); // 5. In path, replace runs of consecutive slashes with a single slash. base::StringPiece path; if (parsed.path.len > 0) path.set(url_unescaped_str.data() + parsed.path.begin, parsed.path.len); std::string path_without_consecutive_slash(RemoveConsecutiveChars(path, '/')); url::Replacements hp_replacements; hp_replacements.SetHost( host_without_consecutive_dots.data(), url::Component(0, host_without_consecutive_dots.length())); hp_replacements.SetPath( path_without_consecutive_slash.data(), url::Component(0, path_without_consecutive_slash.length())); std::string url_unescaped_with_can_hostpath; url::StdStringCanonOutput output(&url_unescaped_with_can_hostpath); url::Parsed temp_parsed; url::ReplaceComponents(url_unescaped_str.data(), url_unescaped_str.length(), parsed, hp_replacements, NULL, &output, &temp_parsed); output.Complete(); // 6. Step needed to revert escaping done in url::ReplaceComponents. url_unescaped_with_can_hostpath = Unescape(url_unescaped_with_can_hostpath); // 7. After performing all above steps, percent-escape all chars in url which // are <= ASCII 32, >= 127, #, %. Escapes must be uppercase hex characters. std::string escaped_canon_url_str(Escape(url_unescaped_with_can_hostpath)); url::Parsed final_parsed; url::ParseStandardURL(escaped_canon_url_str.data(), escaped_canon_url_str.length(), &final_parsed); if (canonicalized_hostname && final_parsed.host.len > 0) { *canonicalized_hostname = escaped_canon_url_str.substr(final_parsed.host.begin, final_parsed.host.len); } if (canonicalized_path && final_parsed.path.len > 0) { *canonicalized_path = escaped_canon_url_str.substr(final_parsed.path.begin, final_parsed.path.len); } if (canonicalized_query && final_parsed.query.len > 0) { *canonicalized_query = escaped_canon_url_str.substr( final_parsed.query.begin, final_parsed.query.len); } } void UrlToFullHashes(const GURL& url, bool include_whitelist_hashes, std::vector* full_hashes) { // Include this function in traces because it's not cheap so it should be // called sparingly. TRACE_EVENT2("loader", "safe_browsing::UrlToFullHashes", "url", url.spec(), "include_whitelist_hashes", include_whitelist_hashes); std::vector hosts; if (url.HostIsIPAddress()) { hosts.push_back(url.host()); } else { GenerateHostsToCheck(url, &hosts); } std::vector paths; GeneratePathsToCheck(url, &paths); for (const std::string& host : hosts) { for (const std::string& path : paths) { full_hashes->push_back( SBFullHashForString(host + path)); // We may have /foo as path-prefix in the whitelist which should // also match with /foo/bar and /foo?bar. Hence, for every path // that ends in '/' we also add the path without the slash. if (include_whitelist_hashes && path.size() > 1 && path[path.size() - 1] == '/') { full_hashes->push_back(SBFullHashForString( host + path.substr(0, path.size() - 1))); } } } } void GenerateHostsToCheck(const GURL& url, std::vector* hosts) { hosts->clear(); std::string canon_host; CanonicalizeUrl(url, &canon_host, NULL, NULL); const std::string host = canon_host; // const sidesteps GCC bugs below! if (host.empty()) return; // Per the Safe Browsing Protocol v2 spec, we try the host, and also up to 4 // hostnames formed by starting with the last 5 components and successively // removing the leading component. The last component isn't examined alone, // since it's the TLD or a subcomponent thereof. // // Note that we don't need to be clever about stopping at the "real" eTLD -- // the data on the server side has been filtered to ensure it will not // blacklist a whole TLD, and it's not significantly slower on our side to // just check too much. // // Also note that because we have a simple blacklist, not some sort of complex // whitelist-in-blacklist or vice versa, it doesn't matter what order we check // these in. const size_t kMaxHostsToCheck = 4; bool skipped_last_component = false; for (std::string::const_reverse_iterator i(host.rbegin()); i != host.rend() && hosts->size() < kMaxHostsToCheck; ++i) { if (*i == '.') { if (skipped_last_component) hosts->push_back(std::string(i.base(), host.end())); else skipped_last_component = true; } } hosts->push_back(host); } void GeneratePathsToCheck(const GURL& url, std::vector* paths) { paths->clear(); std::string canon_path; std::string canon_query; CanonicalizeUrl(url, NULL, &canon_path, &canon_query); const std::string path = canon_path; // const sidesteps GCC bugs below! const std::string query = canon_query; if (path.empty()) return; // Per the Safe Browsing Protocol v2 spec, we try the exact path with/without // the query parameters, and also up to 4 paths formed by starting at the root // and adding more path components. // // As with the hosts above, it doesn't matter what order we check these in. const size_t kMaxPathsToCheck = 4; for (std::string::const_iterator i(path.begin()); i != path.end() && paths->size() < kMaxPathsToCheck; ++i) { if (*i == '/') paths->push_back(std::string(path.begin(), i + 1)); } if (!paths->empty() && paths->back() != path) paths->push_back(path); if (!query.empty()) paths->push_back(path + "?" + query); } void GeneratePatternsToCheck(const GURL& url, std::vector* urls) { std::vector hosts, paths; GenerateHostsToCheck(url, &hosts); GeneratePathsToCheck(url, &paths); for (size_t h = 0; h < hosts.size(); ++h) { for (size_t p = 0; p < paths.size(); ++p) { urls->push_back(hosts[h] + paths[p]); } } } } // namespace safe_browsing