// 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 "chromeos/geolocation/simple_geolocation_request.h" #include #include #include "base/json/json_reader.h" #include "base/metrics/histogram.h" #include "base/metrics/sparse_histogram.h" #include "base/strings/string_number_conversions.h" #include "base/strings/stringprintf.h" #include "base/time/time.h" #include "base/values.h" #include "chromeos/geolocation/simple_geolocation_provider.h" #include "google_apis/google_api_keys.h" #include "net/base/escape.h" #include "net/base/load_flags.h" #include "net/http/http_status_code.h" #include "net/url_request/url_request_context_getter.h" #include "net/url_request/url_request_status.h" // Location resolve timeout is usually 1 minute, so 2 minutes with 50 buckets // should be enough. #define UMA_HISTOGRAM_LOCATION_RESPONSE_TIMES(name, sample) \ UMA_HISTOGRAM_CUSTOM_TIMES(name, \ sample, \ base::TimeDelta::FromMilliseconds(10), \ base::TimeDelta::FromMinutes(2), \ 50) namespace chromeos { namespace { // The full request text. (no parameters are supported by now) const char kSimpleGeolocationRequestBody[] = "{\"considerIP\": \"true\"}"; // Response data. const char kLocationString[] = "location"; const char kLatString[] = "lat"; const char kLngString[] = "lng"; const char kAccuracyString[] = "accuracy"; // Error object and its contents. const char kErrorString[] = "error"; // "errors" array in "erorr" object is ignored. const char kCodeString[] = "code"; const char kMessageString[] = "message"; // We are using "sparse" histograms for the number of retry attempts, // so we need to explicitly limit maximum value (in case something goes wrong). const size_t kMaxRetriesValueInHistograms = 20; // Sleep between geolocation request retry on HTTP error. const unsigned int kResolveGeolocationRetrySleepOnServerErrorSeconds = 5; // Sleep between geolocation request retry on bad server response. const unsigned int kResolveGeolocationRetrySleepBadResponseSeconds = 10; enum SimpleGeolocationRequestEvent { // NOTE: Do not renumber these as that would confuse interpretation of // previously logged data. When making changes, also update the enum list // in tools/metrics/histograms/histograms.xml to keep it in sync. SIMPLE_GEOLOCATION_REQUEST_EVENT_REQUEST_START = 0, SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_SUCCESS = 1, SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_NOT_OK = 2, SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_EMPTY = 3, SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_MALFORMED = 4, // NOTE: Add entries only immediately above this line. SIMPLE_GEOLOCATION_REQUEST_EVENT_COUNT = 5 }; enum SimpleGeolocationRequestResult { // NOTE: Do not renumber these as that would confuse interpretation of // previously logged data. When making changes, also update the enum list // in tools/metrics/histograms/histograms.xml to keep it in sync. SIMPLE_GEOLOCATION_REQUEST_RESULT_SUCCESS = 0, SIMPLE_GEOLOCATION_REQUEST_RESULT_FAILURE = 1, SIMPLE_GEOLOCATION_REQUEST_RESULT_SERVER_ERROR = 2, SIMPLE_GEOLOCATION_REQUEST_RESULT_CANCELLED = 3, // NOTE: Add entries only immediately above this line. SIMPLE_GEOLOCATION_REQUEST_RESULT_COUNT = 4 }; // Too many requests (more than 1) mean there is a problem in implementation. void RecordUmaEvent(SimpleGeolocationRequestEvent event) { UMA_HISTOGRAM_ENUMERATION("SimpleGeolocation.Request.Event", event, SIMPLE_GEOLOCATION_REQUEST_EVENT_COUNT); } void RecordUmaResponseCode(int code) { UMA_HISTOGRAM_SPARSE_SLOWLY("SimpleGeolocation.Request.ResponseCode", code); } // Slow geolocation resolve leads to bad user experience. void RecordUmaResponseTime(base::TimeDelta elapsed, bool success) { if (success) { UMA_HISTOGRAM_LOCATION_RESPONSE_TIMES( "SimpleGeolocation.Request.ResponseSuccessTime", elapsed); } else { UMA_HISTOGRAM_LOCATION_RESPONSE_TIMES( "SimpleGeolocation.Request.ResponseFailureTime", elapsed); } } void RecordUmaResult(SimpleGeolocationRequestResult result, size_t retries) { UMA_HISTOGRAM_ENUMERATION("SimpleGeolocation.Request.Result", result, SIMPLE_GEOLOCATION_REQUEST_RESULT_COUNT); UMA_HISTOGRAM_SPARSE_SLOWLY("SimpleGeolocation.Request.Retries", std::min(retries, kMaxRetriesValueInHistograms)); } // Creates the request url to send to the server. GURL GeolocationRequestURL(const GURL& url) { if (url != SimpleGeolocationProvider::DefaultGeolocationProviderURL()) return url; std::string api_key = google_apis::GetAPIKey(); if (api_key.empty()) return url; std::string query(url.query()); if (!query.empty()) query += "&"; query += "key=" + net::EscapeQueryParamValue(api_key, true); GURL::Replacements replacements; replacements.SetQueryStr(query); return url.ReplaceComponents(replacements); } void PrintGeolocationError(const GURL& server_url, const std::string& message, Geoposition* position) { position->status = Geoposition::STATUS_SERVER_ERROR; position->error_message = base::StringPrintf("SimpleGeolocation provider at '%s' : %s.", server_url.GetOrigin().spec().c_str(), message.c_str()); VLOG(1) << "SimpleGeolocationRequest::GetGeolocationFromResponse() : " << position->error_message; } // Parses the server response body. Returns true if parsing was successful. // Sets |*position| to the parsed Geolocation if a valid position was received, // otherwise leaves it unchanged. bool ParseServerResponse(const GURL& server_url, const std::string& response_body, Geoposition* position) { DCHECK(position); if (response_body.empty()) { PrintGeolocationError( server_url, "Server returned empty response", position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_EMPTY); return false; } VLOG(1) << "SimpleGeolocationRequest::ParseServerResponse() : " "Parsing response '" << response_body << "'"; // Parse the response, ignoring comments. std::string error_msg; scoped_ptr response_value(base::JSONReader::ReadAndReturnError( response_body, base::JSON_PARSE_RFC, NULL, &error_msg)); if (response_value == NULL) { PrintGeolocationError( server_url, "JSONReader failed: " + error_msg, position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_MALFORMED); return false; } base::DictionaryValue* response_object = NULL; if (!response_value->GetAsDictionary(&response_object)) { PrintGeolocationError( server_url, "Unexpected response type : " + base::StringPrintf("%u", response_value->GetType()), position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_MALFORMED); return false; } base::DictionaryValue* error_object = NULL; base::DictionaryValue* location_object = NULL; response_object->GetDictionaryWithoutPathExpansion(kLocationString, &location_object); response_object->GetDictionaryWithoutPathExpansion(kErrorString, &error_object); position->timestamp = base::Time::Now(); if (error_object) { if (!error_object->GetStringWithoutPathExpansion( kMessageString, &(position->error_message))) { position->error_message = "Server returned error without message."; } // Ignore result (code defaults to zero). error_object->GetIntegerWithoutPathExpansion(kCodeString, &(position->error_code)); } else { position->error_message.erase(); } if (location_object) { if (!location_object->GetDoubleWithoutPathExpansion( kLatString, &(position->latitude))) { PrintGeolocationError(server_url, "Missing 'lat' attribute.", position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_MALFORMED); return false; } if (!location_object->GetDoubleWithoutPathExpansion( kLngString, &(position->longitude))) { PrintGeolocationError(server_url, "Missing 'lon' attribute.", position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_MALFORMED); return false; } if (!response_object->GetDoubleWithoutPathExpansion( kAccuracyString, &(position->accuracy))) { PrintGeolocationError( server_url, "Missing 'accuracy' attribute.", position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_MALFORMED); return false; } } if (error_object) { position->status = Geoposition::STATUS_SERVER_ERROR; return false; } // Empty response is STATUS_OK but not Valid(). position->status = Geoposition::STATUS_OK; return true; } // Attempts to extract a position from the response. Detects and indicates // various failure cases. bool GetGeolocationFromResponse(bool http_success, int status_code, const std::string& response_body, const GURL& server_url, Geoposition* position) { // HttpPost can fail for a number of reasons. Most likely this is because // we're offline, or there was no response. if (!http_success) { PrintGeolocationError(server_url, "No response received", position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_EMPTY); return false; } if (status_code != net::HTTP_OK) { std::string message = "Returned error code "; message += base::IntToString(status_code); PrintGeolocationError(server_url, message, position); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_RESPONSE_NOT_OK); return false; } return ParseServerResponse(server_url, response_body, position); } } // namespace SimpleGeolocationRequest::SimpleGeolocationRequest( net::URLRequestContextGetter* url_context_getter, const GURL& service_url, base::TimeDelta timeout) : url_context_getter_(url_context_getter), service_url_(service_url), retry_sleep_on_server_error_(base::TimeDelta::FromSeconds( kResolveGeolocationRetrySleepOnServerErrorSeconds)), retry_sleep_on_bad_response_(base::TimeDelta::FromSeconds( kResolveGeolocationRetrySleepBadResponseSeconds)), timeout_(timeout), retries_(0) { } SimpleGeolocationRequest::~SimpleGeolocationRequest() { DCHECK(thread_checker_.CalledOnValidThread()); // If callback is not empty, request is cancelled. if (!callback_.is_null()) { RecordUmaResponseTime(base::Time::Now() - request_started_at_, false); RecordUmaResult(SIMPLE_GEOLOCATION_REQUEST_RESULT_CANCELLED, retries_); } } void SimpleGeolocationRequest::StartRequest() { DCHECK(thread_checker_.CalledOnValidThread()); RecordUmaEvent(SIMPLE_GEOLOCATION_REQUEST_EVENT_REQUEST_START); ++retries_; url_fetcher_.reset( net::URLFetcher::Create(request_url_, net::URLFetcher::POST, this)); url_fetcher_->SetRequestContext(url_context_getter_.get()); url_fetcher_->SetUploadData("application/json", std::string(kSimpleGeolocationRequestBody)); url_fetcher_->SetLoadFlags(net::LOAD_BYPASS_CACHE | net::LOAD_DISABLE_CACHE | net::LOAD_DO_NOT_SAVE_COOKIES | net::LOAD_DO_NOT_SEND_COOKIES | net::LOAD_DO_NOT_SEND_AUTH_DATA); url_fetcher_->Start(); } void SimpleGeolocationRequest::MakeRequest(const ResponseCallback& callback) { callback_ = callback; request_url_ = GeolocationRequestURL(service_url_); timeout_timer_.Start( FROM_HERE, timeout_, this, &SimpleGeolocationRequest::OnTimeout); request_started_at_ = base::Time::Now(); StartRequest(); } void SimpleGeolocationRequest::Retry(bool server_error) { base::TimeDelta delay(server_error ? retry_sleep_on_server_error_ : retry_sleep_on_bad_response_); request_scheduled_.Start( FROM_HERE, delay, this, &SimpleGeolocationRequest::StartRequest); } void SimpleGeolocationRequest::OnURLFetchComplete( const net::URLFetcher* source) { DCHECK_EQ(url_fetcher_.get(), source); net::URLRequestStatus status = source->GetStatus(); int response_code = source->GetResponseCode(); RecordUmaResponseCode(response_code); std::string data; source->GetResponseAsString(&data); const bool parse_success = GetGeolocationFromResponse( status.is_success(), response_code, data, source->GetURL(), &position_); const bool server_error = !status.is_success() || (response_code >= 500 && response_code < 600); const bool success = parse_success && position_.Valid(); url_fetcher_.reset(); DVLOG(1) << "SimpleGeolocationRequest::OnURLFetchComplete(): position={" << position_.ToString() << "}"; if (!success) { Retry(server_error); return; } const base::TimeDelta elapsed = base::Time::Now() - request_started_at_; RecordUmaResponseTime(elapsed, success); RecordUmaResult(SIMPLE_GEOLOCATION_REQUEST_RESULT_SUCCESS, retries_); ReplyAndDestroySelf(elapsed, server_error); // "this" is already destroyed here. } void SimpleGeolocationRequest::ReplyAndDestroySelf( const base::TimeDelta elapsed, bool server_error) { url_fetcher_.reset(); timeout_timer_.Stop(); request_scheduled_.Stop(); ResponseCallback callback = callback_; // Empty callback is used to identify "completed or not yet started request". callback_.Reset(); // callback.Run() usually destroys SimpleGeolocationRequest, because this is // the way callback is implemented in GeolocationProvider. callback.Run(position_, server_error, elapsed); // "this" is already destroyed here. } void SimpleGeolocationRequest::OnTimeout() { const SimpleGeolocationRequestResult result = (position_.status == Geoposition::STATUS_SERVER_ERROR ? SIMPLE_GEOLOCATION_REQUEST_RESULT_SERVER_ERROR : SIMPLE_GEOLOCATION_REQUEST_RESULT_FAILURE); RecordUmaResult(result, retries_); position_.status = Geoposition::STATUS_TIMEOUT; const base::TimeDelta elapsed = base::Time::Now() - request_started_at_; ReplyAndDestroySelf(elapsed, true /* server_error */); // "this" is already destroyed here. } } // namespace chromeos