// Copyright 2014 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/domain_reliability/util.h" #include #include "base/callback.h" #include "base/logging.h" #include "base/macros.h" #include "base/memory/weak_ptr.h" #include "base/time/time.h" #include "base/timer/timer.h" #include "net/base/net_errors.h" namespace domain_reliability { namespace { const struct NetErrorMapping { int net_error; const char* beacon_status; } net_error_map[] = { { net::OK, "ok" }, { net::ERR_ABORTED, "aborted" }, { net::ERR_TIMED_OUT, "tcp.connection.timed_out" }, { net::ERR_CONNECTION_CLOSED, "tcp.connection.closed" }, { net::ERR_CONNECTION_RESET, "tcp.connection.reset" }, { net::ERR_CONNECTION_REFUSED, "tcp.connection.refused" }, { net::ERR_CONNECTION_ABORTED, "tcp.connection.aborted" }, { net::ERR_CONNECTION_FAILED, "tcp.connection.failed" }, { net::ERR_NAME_NOT_RESOLVED, "dns" }, { net::ERR_SSL_PROTOCOL_ERROR, "ssl.protocol.error" }, { net::ERR_ADDRESS_INVALID, "tcp.connection.address_invalid" }, { net::ERR_ADDRESS_UNREACHABLE, "tcp.connection.address_unreachable" }, { net::ERR_CONNECTION_TIMED_OUT, "tcp.connection.timed_out" }, { net::ERR_NAME_RESOLUTION_FAILED, "dns" }, { net::ERR_SSL_PINNED_KEY_NOT_IN_CERT_CHAIN, "ssl.cert.pinned_key_not_in_cert_chain" }, { net::ERR_CERT_COMMON_NAME_INVALID, "ssl.cert.name_invalid" }, { net::ERR_CERT_DATE_INVALID, "ssl.cert.date_invalid" }, { net::ERR_CERT_AUTHORITY_INVALID, "ssl.cert.authority_invalid" }, { net::ERR_CERT_REVOKED, "ssl.cert.revoked" }, { net::ERR_CERT_INVALID, "ssl.cert.invalid" }, { net::ERR_EMPTY_RESPONSE, "http.response.empty" }, { net::ERR_SPDY_PING_FAILED, "spdy.ping_failed" }, { net::ERR_SPDY_PROTOCOL_ERROR, "spdy.protocol" }, { net::ERR_QUIC_PROTOCOL_ERROR, "quic.protocol" }, { net::ERR_DNS_MALFORMED_RESPONSE, "dns.protocol" }, { net::ERR_DNS_SERVER_FAILED, "dns.server" }, { net::ERR_DNS_TIMED_OUT, "dns.timed_out" }, { net::ERR_INSECURE_RESPONSE, "ssl" }, { net::ERR_CONTENT_LENGTH_MISMATCH, "http.response.content_length_mismatch" }, { net::ERR_INCOMPLETE_CHUNKED_ENCODING, "http.response.incomplete_chunked_encoding" }, { net::ERR_SSL_VERSION_OR_CIPHER_MISMATCH, "ssl.version_or_cipher_mismatch" }, { net::ERR_BAD_SSL_CLIENT_AUTH_CERT, "ssl.bad_client_auth_cert" }, { net::ERR_INVALID_CHUNKED_ENCODING, "http.response.invalid_chunked_encoding" }, { net::ERR_RESPONSE_HEADERS_TRUNCATED, "http.response.headers.truncated" }, { net::ERR_REQUEST_RANGE_NOT_SATISFIABLE, "http.request.range_not_satisfiable" }, { net::ERR_INVALID_RESPONSE, "http.response.invalid" }, { net::ERR_RESPONSE_HEADERS_MULTIPLE_CONTENT_DISPOSITION, "http.response.headers.multiple_content_disposition" }, { net::ERR_RESPONSE_HEADERS_MULTIPLE_CONTENT_LENGTH, "http.response.headers.multiple_content_length" }, { net::ERR_SSL_UNRECOGNIZED_NAME_ALERT, "ssl.unrecognized_name_alert" } }; bool CanReportFullBeaconURLToCollector(const GURL& beacon_url, const GURL& collector_url) { return beacon_url.GetOrigin() == collector_url.GetOrigin(); } } // namespace // static bool GetDomainReliabilityBeaconStatus( int net_error, int http_response_code, std::string* beacon_status_out) { if (net_error == net::OK) { if (http_response_code >= 400 && http_response_code < 600) *beacon_status_out = "http.error"; else *beacon_status_out = "ok"; return true; } // TODO(juliatuttle): Consider sorting and using binary search? for (size_t i = 0; i < arraysize(net_error_map); i++) { if (net_error_map[i].net_error == net_error) { *beacon_status_out = net_error_map[i].beacon_status; return true; } } return false; } // TODO(juliatuttle): Consider using NPN/ALPN instead, if there's a good way to // differentiate HTTP and HTTPS. std::string GetDomainReliabilityProtocol( net::HttpResponseInfo::ConnectionInfo connection_info, bool ssl_info_populated) { switch (connection_info) { case net::HttpResponseInfo::CONNECTION_INFO_UNKNOWN: return ""; case net::HttpResponseInfo::CONNECTION_INFO_HTTP0_9: case net::HttpResponseInfo::CONNECTION_INFO_HTTP1_0: case net::HttpResponseInfo::CONNECTION_INFO_HTTP1_1: return ssl_info_populated ? "HTTPS" : "HTTP"; case net::HttpResponseInfo::CONNECTION_INFO_DEPRECATED_SPDY2: case net::HttpResponseInfo::CONNECTION_INFO_DEPRECATED_SPDY3: case net::HttpResponseInfo::CONNECTION_INFO_DEPRECATED_HTTP2_14: case net::HttpResponseInfo::CONNECTION_INFO_DEPRECATED_HTTP2_15: case net::HttpResponseInfo::CONNECTION_INFO_HTTP2: return "SPDY"; case net::HttpResponseInfo::CONNECTION_INFO_QUIC_UNKNOWN_VERSION: case net::HttpResponseInfo::CONNECTION_INFO_QUIC_32: case net::HttpResponseInfo::CONNECTION_INFO_QUIC_33: case net::HttpResponseInfo::CONNECTION_INFO_QUIC_34: case net::HttpResponseInfo::CONNECTION_INFO_QUIC_35: case net::HttpResponseInfo::CONNECTION_INFO_QUIC_36: return "QUIC"; case net::HttpResponseInfo::NUM_OF_CONNECTION_INFOS: NOTREACHED(); return ""; } NOTREACHED(); return ""; } int GetNetErrorFromURLRequestStatus(const net::URLRequestStatus& status) { switch (status.status()) { case net::URLRequestStatus::SUCCESS: return net::OK; case net::URLRequestStatus::CANCELED: return net::ERR_ABORTED; case net::URLRequestStatus::FAILED: return status.error(); default: NOTREACHED(); return net::ERR_FAILED; } } void GetUploadResultFromResponseDetails( int net_error, int http_response_code, base::TimeDelta retry_after, DomainReliabilityUploader::UploadResult* result) { if (net_error == net::OK && http_response_code == 200) { result->status = DomainReliabilityUploader::UploadResult::SUCCESS; return; } if (net_error == net::OK && http_response_code == 503 && !retry_after.is_zero()) { result->status = DomainReliabilityUploader::UploadResult::RETRY_AFTER; result->retry_after = retry_after; return; } result->status = DomainReliabilityUploader::UploadResult::FAILURE; return; } // N.B. This uses a ScopedVector because that's what JSONValueConverter uses // for repeated fields of any type, and Config uses JSONValueConverter to parse // JSON configs. GURL SanitizeURLForReport(const GURL& beacon_url, const GURL& collector_url, const ScopedVector& path_prefixes) { if (CanReportFullBeaconURLToCollector(beacon_url, collector_url)) return beacon_url.GetAsReferrer(); std::string path = beacon_url.path(); const std::string empty_path; const std::string* longest_path_prefix = &empty_path; for (const std::string* path_prefix : path_prefixes) { if (path.substr(0, path_prefix->length()) == *path_prefix && path_prefix->length() > longest_path_prefix->length()) { longest_path_prefix = path_prefix; } } GURL::Replacements replacements; replacements.ClearUsername(); replacements.ClearPassword(); replacements.SetPathStr(*longest_path_prefix); replacements.ClearQuery(); replacements.ClearRef(); return beacon_url.ReplaceComponents(replacements); } namespace { class ActualTimer : public MockableTime::Timer { public: // Initialize base timer with retain_user_info and is_repeating false. ActualTimer() : base_timer_(false, false) {} ~ActualTimer() override {} // MockableTime::Timer implementation: void Start(const tracked_objects::Location& posted_from, base::TimeDelta delay, const base::Closure& user_task) override { base_timer_.Start(posted_from, delay, user_task); } void Stop() override { base_timer_.Stop(); } bool IsRunning() override { return base_timer_.IsRunning(); } private: base::Timer base_timer_; }; } // namespace MockableTime::Timer::~Timer() {} MockableTime::Timer::Timer() {} MockableTime::~MockableTime() {} MockableTime::MockableTime() {} ActualTime::ActualTime() {} ActualTime::~ActualTime() {} base::Time ActualTime::Now() { return base::Time::Now(); } base::TimeTicks ActualTime::NowTicks() { return base::TimeTicks::Now(); } std::unique_ptr ActualTime::CreateTimer() { return std::unique_ptr(new ActualTimer()); } } // namespace domain_reliability