Home | History | Annotate | Download | only in policy
      1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
      2 // Use of this source code is governed by a BSD-style license that can be
      3 // found in the LICENSE file.
      4 
      5 #include "chrome/browser/chromeos/policy/auto_enrollment_client.h"
      6 
      7 #include "base/bind.h"
      8 #include "base/guid.h"
      9 #include "base/location.h"
     10 #include "base/logging.h"
     11 #include "base/message_loop/message_loop_proxy.h"
     12 #include "base/metrics/histogram.h"
     13 #include "base/metrics/sparse_histogram.h"
     14 #include "base/prefs/pref_registry_simple.h"
     15 #include "base/prefs/pref_service.h"
     16 #include "base/prefs/scoped_user_pref_update.h"
     17 #include "chrome/browser/browser_process.h"
     18 #include "chrome/browser/chromeos/policy/server_backed_device_state.h"
     19 #include "chrome/common/chrome_content_client.h"
     20 #include "chrome/common/pref_names.h"
     21 #include "components/policy/core/common/cloud/device_management_service.h"
     22 #include "components/policy/core/common/cloud/system_policy_request_context.h"
     23 #include "content/public/browser/browser_thread.h"
     24 #include "crypto/sha2.h"
     25 #include "net/url_request/url_request_context_getter.h"
     26 #include "policy/proto/device_management_backend.pb.h"
     27 #include "url/gurl.h"
     28 
     29 using content::BrowserThread;
     30 
     31 namespace em = enterprise_management;
     32 
     33 namespace policy {
     34 
     35 namespace {
     36 
     37 // UMA histogram names.
     38 const char kUMAProtocolTime[] = "Enterprise.AutoEnrollmentProtocolTime";
     39 const char kUMAExtraTime[] = "Enterprise.AutoEnrollmentExtraTime";
     40 const char kUMARequestStatus[] = "Enterprise.AutoEnrollmentRequestStatus";
     41 const char kUMANetworkErrorCode[] =
     42     "Enterprise.AutoEnrollmentRequestNetworkErrorCode";
     43 
     44 // Returns the power of the next power-of-2 starting at |value|.
     45 int NextPowerOf2(int64 value) {
     46   for (int i = 0; i <= AutoEnrollmentClient::kMaximumPower; ++i) {
     47     if ((GG_INT64_C(1) << i) >= value)
     48       return i;
     49   }
     50   // No other value can be represented in an int64.
     51   return AutoEnrollmentClient::kMaximumPower + 1;
     52 }
     53 
     54 // Sets or clears a value in a dictionary.
     55 void UpdateDict(base::DictionaryValue* dict,
     56                 const char* pref_path,
     57                 bool set_or_clear,
     58                 base::Value* value) {
     59   scoped_ptr<base::Value> scoped_value(value);
     60   if (set_or_clear)
     61     dict->Set(pref_path, scoped_value.release());
     62   else
     63     dict->Remove(pref_path, NULL);
     64 }
     65 
     66 // Converts a restore mode enum value from the DM protocol into the
     67 // corresponding prefs string constant.
     68 std::string ConvertRestoreMode(
     69     em::DeviceStateRetrievalResponse::RestoreMode restore_mode) {
     70   switch (restore_mode) {
     71     case em::DeviceStateRetrievalResponse::RESTORE_MODE_NONE:
     72       return std::string();
     73     case em::DeviceStateRetrievalResponse::RESTORE_MODE_REENROLLMENT_REQUESTED:
     74       return kDeviceStateRestoreModeReEnrollmentRequested;
     75     case em::DeviceStateRetrievalResponse::RESTORE_MODE_REENROLLMENT_ENFORCED:
     76       return kDeviceStateRestoreModeReEnrollmentEnforced;
     77   }
     78 
     79   NOTREACHED() << "Bad restore mode " << restore_mode;
     80   return std::string();
     81 }
     82 
     83 }  // namespace
     84 
     85 AutoEnrollmentClient::AutoEnrollmentClient(
     86     const ProgressCallback& callback,
     87     DeviceManagementService* service,
     88     PrefService* local_state,
     89     scoped_refptr<net::URLRequestContextGetter> system_request_context,
     90     const std::string& server_backed_state_key,
     91     bool retrieve_device_state,
     92     int power_initial,
     93     int power_limit)
     94     : progress_callback_(callback),
     95       state_(AUTO_ENROLLMENT_STATE_IDLE),
     96       has_server_state_(false),
     97       device_state_available_(false),
     98       device_id_(base::GenerateGUID()),
     99       server_backed_state_key_(server_backed_state_key),
    100       retrieve_device_state_(retrieve_device_state),
    101       current_power_(power_initial),
    102       power_limit_(power_limit),
    103       modulus_updates_received_(0),
    104       device_management_service_(service),
    105       local_state_(local_state) {
    106   request_context_ = new SystemPolicyRequestContext(
    107       system_request_context, GetUserAgent());
    108 
    109   DCHECK_LE(current_power_, power_limit_);
    110   DCHECK(!progress_callback_.is_null());
    111   if (!server_backed_state_key_.empty()) {
    112     server_backed_state_key_hash_ =
    113         crypto::SHA256HashString(server_backed_state_key_);
    114   }
    115 }
    116 
    117 AutoEnrollmentClient::~AutoEnrollmentClient() {
    118   net::NetworkChangeNotifier::RemoveNetworkChangeObserver(this);
    119 }
    120 
    121 // static
    122 void AutoEnrollmentClient::RegisterPrefs(PrefRegistrySimple* registry) {
    123   registry->RegisterBooleanPref(prefs::kShouldAutoEnroll, false);
    124   registry->RegisterIntegerPref(prefs::kAutoEnrollmentPowerLimit, -1);
    125 }
    126 
    127 // static
    128 void AutoEnrollmentClient::CancelAutoEnrollment() {
    129   PrefService* local_state = g_browser_process->local_state();
    130   local_state->SetBoolean(prefs::kShouldAutoEnroll, false);
    131   local_state->ClearPref(prefs::kServerBackedDeviceState);
    132   local_state->CommitPendingWrite();
    133 }
    134 
    135 void AutoEnrollmentClient::Start() {
    136   // (Re-)register the network change observer.
    137   net::NetworkChangeNotifier::RemoveNetworkChangeObserver(this);
    138   net::NetworkChangeNotifier::AddNetworkChangeObserver(this);
    139 
    140   // Drop the previous job and reset state.
    141   request_job_.reset();
    142   state_ = AUTO_ENROLLMENT_STATE_PENDING;
    143   time_start_ = base::Time::Now();
    144   modulus_updates_received_ = 0;
    145   has_server_state_ = false;
    146   device_state_available_ = false;
    147 
    148   NextStep();
    149 }
    150 
    151 void AutoEnrollmentClient::Retry() {
    152   RetryStep();
    153 }
    154 
    155 void AutoEnrollmentClient::CancelAndDeleteSoon() {
    156   if (time_start_.is_null() || !request_job_) {
    157     // The client isn't running, just delete it.
    158     delete this;
    159   } else {
    160     // Client still running, but our owner isn't interested in the result
    161     // anymore. Wait until the protocol completes to measure the extra time
    162     // needed.
    163     time_extra_start_ = base::Time::Now();
    164     progress_callback_.Reset();
    165   }
    166 }
    167 
    168 void AutoEnrollmentClient::OnNetworkChanged(
    169     net::NetworkChangeNotifier::ConnectionType type) {
    170   if (type != net::NetworkChangeNotifier::CONNECTION_NONE &&
    171       !progress_callback_.is_null()) {
    172     RetryStep();
    173   }
    174 }
    175 
    176 bool AutoEnrollmentClient::GetCachedDecision() {
    177   const PrefService::Preference* has_server_state_pref =
    178       local_state_->FindPreference(prefs::kShouldAutoEnroll);
    179   const PrefService::Preference* previous_limit_pref =
    180       local_state_->FindPreference(prefs::kAutoEnrollmentPowerLimit);
    181   bool has_server_state = false;
    182   int previous_limit = -1;
    183 
    184   if (!has_server_state_pref ||
    185       has_server_state_pref->IsDefaultValue() ||
    186       !has_server_state_pref->GetValue()->GetAsBoolean(&has_server_state) ||
    187       !previous_limit_pref ||
    188       previous_limit_pref->IsDefaultValue() ||
    189       !previous_limit_pref->GetValue()->GetAsInteger(&previous_limit) ||
    190       power_limit_ > previous_limit) {
    191     return false;
    192   }
    193 
    194   has_server_state_ = has_server_state;
    195   return true;
    196 }
    197 
    198 bool AutoEnrollmentClient::RetryStep() {
    199   // If there is a pending request job, let it finish.
    200   if (request_job_)
    201     return true;
    202 
    203   if (GetCachedDecision()) {
    204     // The bucket download check has completed already. If it came back
    205     // positive, then device state should be (re-)downloaded.
    206     if (has_server_state_) {
    207       if (retrieve_device_state_ && !device_state_available_ &&
    208           SendDeviceStateRequest()) {
    209         return true;
    210       }
    211     }
    212   } else {
    213     // Start bucket download.
    214     if (SendBucketDownloadRequest())
    215       return true;
    216   }
    217 
    218   return false;
    219 }
    220 
    221 void AutoEnrollmentClient::ReportProgress(AutoEnrollmentState state) {
    222   state_ = state;
    223   if (progress_callback_.is_null()) {
    224     base::MessageLoopProxy::current()->DeleteSoon(FROM_HERE, this);
    225   } else {
    226     progress_callback_.Run(state_);
    227   }
    228 }
    229 
    230 void AutoEnrollmentClient::NextStep() {
    231   if (!RetryStep()) {
    232     // Protocol finished successfully, report result.
    233     bool trigger_enrollment = false;
    234     if (retrieve_device_state_) {
    235       const base::DictionaryValue* device_state_dict =
    236           local_state_->GetDictionary(prefs::kServerBackedDeviceState);
    237       std::string restore_mode;
    238       device_state_dict->GetString(kDeviceStateRestoreMode, &restore_mode);
    239       trigger_enrollment =
    240           (restore_mode == kDeviceStateRestoreModeReEnrollmentRequested ||
    241            restore_mode == kDeviceStateRestoreModeReEnrollmentEnforced);
    242     } else {
    243       trigger_enrollment = has_server_state_;
    244     }
    245 
    246     ReportProgress(trigger_enrollment ? AUTO_ENROLLMENT_STATE_TRIGGER_ENROLLMENT
    247                                       : AUTO_ENROLLMENT_STATE_NO_ENROLLMENT);
    248   }
    249 }
    250 
    251 bool AutoEnrollmentClient::SendBucketDownloadRequest() {
    252   if (server_backed_state_key_hash_.empty())
    253     return false;
    254 
    255   // Only power-of-2 moduli are supported for now. These are computed by taking
    256   // the lower |current_power_| bits of the hash.
    257   uint64 remainder = 0;
    258   for (int i = 0; 8 * i < current_power_; ++i) {
    259     uint64 byte = server_backed_state_key_hash_[31 - i] & 0xff;
    260     remainder = remainder | (byte << (8 * i));
    261   }
    262   remainder = remainder & ((GG_UINT64_C(1) << current_power_) - 1);
    263 
    264   ReportProgress(AUTO_ENROLLMENT_STATE_PENDING);
    265 
    266   request_job_.reset(
    267       device_management_service_->CreateJob(
    268           DeviceManagementRequestJob::TYPE_AUTO_ENROLLMENT,
    269           request_context_.get()));
    270   request_job_->SetClientID(device_id_);
    271   em::DeviceAutoEnrollmentRequest* request =
    272       request_job_->GetRequest()->mutable_auto_enrollment_request();
    273   request->set_remainder(remainder);
    274   request->set_modulus(GG_INT64_C(1) << current_power_);
    275   request_job_->Start(
    276       base::Bind(&AutoEnrollmentClient::HandleRequestCompletion,
    277                  base::Unretained(this),
    278                  &AutoEnrollmentClient::OnBucketDownloadRequestCompletion));
    279   return true;
    280 }
    281 
    282 bool AutoEnrollmentClient::SendDeviceStateRequest() {
    283   ReportProgress(AUTO_ENROLLMENT_STATE_PENDING);
    284 
    285   request_job_.reset(
    286       device_management_service_->CreateJob(
    287           DeviceManagementRequestJob::TYPE_DEVICE_STATE_RETRIEVAL,
    288           request_context_.get()));
    289   request_job_->SetClientID(device_id_);
    290   em::DeviceStateRetrievalRequest* request =
    291       request_job_->GetRequest()->mutable_device_state_retrieval_request();
    292   request->set_server_backed_state_key(server_backed_state_key_);
    293   request_job_->Start(
    294       base::Bind(&AutoEnrollmentClient::HandleRequestCompletion,
    295                  base::Unretained(this),
    296                  &AutoEnrollmentClient::OnDeviceStateRequestCompletion));
    297   return true;
    298 }
    299 
    300 void AutoEnrollmentClient::HandleRequestCompletion(
    301     RequestCompletionHandler handler,
    302     DeviceManagementStatus status,
    303     int net_error,
    304     const em::DeviceManagementResponse& response) {
    305   UMA_HISTOGRAM_SPARSE_SLOWLY(kUMARequestStatus, status);
    306   if (status != DM_STATUS_SUCCESS) {
    307     LOG(ERROR) << "Auto enrollment error: " << status;
    308     if (status == DM_STATUS_REQUEST_FAILED)
    309       UMA_HISTOGRAM_SPARSE_SLOWLY(kUMANetworkErrorCode, -net_error);
    310     request_job_.reset();
    311 
    312     // Abort if CancelAndDeleteSoon has been called meanwhile.
    313     if (progress_callback_.is_null()) {
    314       base::MessageLoopProxy::current()->DeleteSoon(FROM_HERE, this);
    315     } else {
    316       ReportProgress(status == DM_STATUS_REQUEST_FAILED
    317                          ? AUTO_ENROLLMENT_STATE_CONNECTION_ERROR
    318                          : AUTO_ENROLLMENT_STATE_SERVER_ERROR);
    319     }
    320     return;
    321   }
    322 
    323   bool progress = (this->*handler)(status, net_error, response);
    324   request_job_.reset();
    325   if (progress)
    326     NextStep();
    327   else
    328     ReportProgress(AUTO_ENROLLMENT_STATE_SERVER_ERROR);
    329 }
    330 
    331 bool AutoEnrollmentClient::OnBucketDownloadRequestCompletion(
    332     DeviceManagementStatus status,
    333     int net_error,
    334     const em::DeviceManagementResponse& response) {
    335   bool progress = false;
    336   const em::DeviceAutoEnrollmentResponse& enrollment_response =
    337       response.auto_enrollment_response();
    338   if (!response.has_auto_enrollment_response()) {
    339     LOG(ERROR) << "Server failed to provide auto-enrollment response.";
    340   } else if (enrollment_response.has_expected_modulus()) {
    341     // Server is asking us to retry with a different modulus.
    342     modulus_updates_received_++;
    343 
    344     int64 modulus = enrollment_response.expected_modulus();
    345     int power = NextPowerOf2(modulus);
    346     if ((GG_INT64_C(1) << power) != modulus) {
    347       LOG(WARNING) << "Auto enrollment: the server didn't ask for a power-of-2 "
    348                    << "modulus. Using the closest power-of-2 instead "
    349                    << "(" << modulus << " vs 2^" << power << ")";
    350     }
    351     if (modulus_updates_received_ >= 2) {
    352       LOG(ERROR) << "Auto enrollment error: already retried with an updated "
    353                  << "modulus but the server asked for a new one again: "
    354                  << power;
    355     } else if (power > power_limit_) {
    356       LOG(ERROR) << "Auto enrollment error: the server asked for a larger "
    357                  << "modulus than the client accepts (" << power << " vs "
    358                  << power_limit_ << ").";
    359     } else {
    360       // Retry at most once with the modulus that the server requested.
    361       if (power <= current_power_) {
    362         LOG(WARNING) << "Auto enrollment: the server asked to use a modulus ("
    363                      << power << ") that isn't larger than the first used ("
    364                      << current_power_ << "). Retrying anyway.";
    365       }
    366       // Remember this value, so that eventual retries start with the correct
    367       // modulus.
    368       current_power_ = power;
    369       return true;
    370     }
    371   } else {
    372     // Server should have sent down a list of hashes to try.
    373     has_server_state_ = IsIdHashInProtobuf(enrollment_response.hash());
    374     // Cache the current decision in local_state, so that it is reused in case
    375     // the device reboots before enrolling.
    376     local_state_->SetBoolean(prefs::kShouldAutoEnroll, has_server_state_);
    377     local_state_->SetInteger(prefs::kAutoEnrollmentPowerLimit, power_limit_);
    378     local_state_->CommitPendingWrite();
    379     VLOG(1) << "Auto enrollment check complete, has_server_state_ = "
    380             << has_server_state_;
    381     progress = true;
    382   }
    383 
    384   // Bucket download done, update UMA.
    385   UpdateBucketDownloadTimingHistograms();
    386   return progress;
    387 }
    388 
    389 bool AutoEnrollmentClient::OnDeviceStateRequestCompletion(
    390     DeviceManagementStatus status,
    391     int net_error,
    392     const enterprise_management::DeviceManagementResponse& response) {
    393   bool progress = false;
    394   if (!response.has_device_state_retrieval_response()) {
    395     LOG(ERROR) << "Server failed to provide auto-enrollment response.";
    396   } else {
    397     const em::DeviceStateRetrievalResponse& state_response =
    398         response.device_state_retrieval_response();
    399     {
    400       DictionaryPrefUpdate dict(local_state_, prefs::kServerBackedDeviceState);
    401       UpdateDict(dict.Get(),
    402                  kDeviceStateManagementDomain,
    403                  state_response.has_management_domain(),
    404                  new base::StringValue(state_response.management_domain()));
    405 
    406       std::string restore_mode =
    407           ConvertRestoreMode(state_response.restore_mode());
    408       UpdateDict(dict.Get(),
    409                  kDeviceStateRestoreMode,
    410                  !restore_mode.empty(),
    411                  new base::StringValue(restore_mode));
    412     }
    413     local_state_->CommitPendingWrite();
    414     device_state_available_ = true;
    415     progress = true;
    416   }
    417 
    418   return progress;
    419 }
    420 
    421 bool AutoEnrollmentClient::IsIdHashInProtobuf(
    422       const google::protobuf::RepeatedPtrField<std::string>& hashes) {
    423   for (int i = 0; i < hashes.size(); ++i) {
    424     if (hashes.Get(i) == server_backed_state_key_hash_)
    425       return true;
    426   }
    427   return false;
    428 }
    429 
    430 void AutoEnrollmentClient::UpdateBucketDownloadTimingHistograms() {
    431   // The mininum time can't be 0, must be at least 1.
    432   static const base::TimeDelta kMin = base::TimeDelta::FromMilliseconds(1);
    433   static const base::TimeDelta kMax = base::TimeDelta::FromMinutes(5);
    434   // However, 0 can still be sampled.
    435   static const base::TimeDelta kZero = base::TimeDelta::FromMilliseconds(0);
    436   static const int kBuckets = 50;
    437 
    438   base::Time now = base::Time::Now();
    439   if (!time_start_.is_null()) {
    440     base::TimeDelta delta = now - time_start_;
    441     UMA_HISTOGRAM_CUSTOM_TIMES(kUMAProtocolTime, delta, kMin, kMax, kBuckets);
    442   }
    443   base::TimeDelta delta = kZero;
    444   if (!time_extra_start_.is_null())
    445     delta = now - time_extra_start_;
    446   // This samples |kZero| when there was no need for extra time, so that we can
    447   // measure the ratio of users that succeeded without needing a delay to the
    448   // total users going through OOBE.
    449   UMA_HISTOGRAM_CUSTOM_TIMES(kUMAExtraTime, delta, kMin, kMax, kBuckets);
    450 }
    451 
    452 }  // namespace policy
    453