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chromeos_policy.cc
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//
// Copyright (C) 2014 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#include "update_engine/update_manager/chromeos_policy.h"
#include <algorithm>
#include <memory>
#include <set>
#include <string>
#include <vector>
#include <base/logging.h>
#include <base/strings/string_util.h>
#include <base/time/time.h>
#include "update_engine/common/error_code.h"
#include "update_engine/common/error_code_utils.h"
#include "update_engine/common/utils.h"
#include "update_engine/update_manager/device_policy_provider.h"
#include "update_engine/update_manager/enough_slots_ab_updates_policy_impl.h"
#include "update_engine/update_manager/enterprise_device_policy_impl.h"
#include "update_engine/update_manager/interactive_update_policy_impl.h"
#include "update_engine/update_manager/official_build_check_policy_impl.h"
#include "update_engine/update_manager/out_of_box_experience_policy_impl.h"
#include "update_engine/update_manager/policy_utils.h"
#include "update_engine/update_manager/shill_provider.h"
#include "update_engine/update_manager/update_time_restrictions_policy_impl.h"
using base::Time;
using base::TimeDelta;
using chromeos_update_engine::ConnectionTethering;
using chromeos_update_engine::ConnectionType;
using chromeos_update_engine::ErrorCode;
using chromeos_update_engine::InstallPlan;
using std::get;
using std::min;
using std::set;
using std::string;
using std::unique_ptr;
using std::vector;
namespace {
// Examines |err_code| and decides whether the URL index needs to be advanced,
// the error count for the URL incremented, or none of the above. In the first
// case, returns true; in the second case, increments |*url_num_error_p| and
// returns false; otherwise just returns false.
//
// TODO(garnold) Adapted from PayloadState::UpdateFailed() (to be retired).
bool HandleErrorCode(ErrorCode err_code, int* url_num_error_p) {
err_code = chromeos_update_engine::utils::GetBaseErrorCode(err_code);
switch (err_code) {
// Errors which are good indicators of a problem with a particular URL or
// the protocol used in the URL or entities in the communication channel
// (e.g. proxies). We should try the next available URL in the next update
// check to quickly recover from these errors.
case ErrorCode::kPayloadHashMismatchError:
case ErrorCode::kPayloadSizeMismatchError:
case ErrorCode::kDownloadPayloadVerificationError:
case ErrorCode::kDownloadPayloadPubKeyVerificationError:
case ErrorCode::kSignedDeltaPayloadExpectedError:
case ErrorCode::kDownloadInvalidMetadataMagicString:
case ErrorCode::kDownloadSignatureMissingInManifest:
case ErrorCode::kDownloadManifestParseError:
case ErrorCode::kDownloadMetadataSignatureError:
case ErrorCode::kDownloadMetadataSignatureVerificationError:
case ErrorCode::kDownloadMetadataSignatureMismatch:
case ErrorCode::kDownloadOperationHashVerificationError:
case ErrorCode::kDownloadOperationExecutionError:
case ErrorCode::kDownloadOperationHashMismatch:
case ErrorCode::kDownloadInvalidMetadataSize:
case ErrorCode::kDownloadInvalidMetadataSignature:
case ErrorCode::kDownloadOperationHashMissingError:
case ErrorCode::kDownloadMetadataSignatureMissingError:
case ErrorCode::kPayloadMismatchedType:
case ErrorCode::kUnsupportedMajorPayloadVersion:
case ErrorCode::kUnsupportedMinorPayloadVersion:
case ErrorCode::kPayloadTimestampError:
case ErrorCode::kVerityCalculationError:
LOG(INFO) << "Advancing download URL due to error "
<< chromeos_update_engine::utils::ErrorCodeToString(err_code)
<< " (" << static_cast<int>(err_code) << ")";
return true;
// Errors which seem to be just transient network/communication related
// failures and do not indicate any inherent problem with the URL itself.
// So, we should keep the current URL but just increment the
// failure count to give it more chances. This way, while we maximize our
// chances of downloading from the URLs that appear earlier in the response
// (because download from a local server URL that appears earlier in a
// response is preferable than downloading from the next URL which could be
// an Internet URL and thus could be more expensive).
case ErrorCode::kError:
case ErrorCode::kDownloadTransferError:
case ErrorCode::kDownloadWriteError:
case ErrorCode::kDownloadStateInitializationError:
case ErrorCode::kOmahaErrorInHTTPResponse: // Aggregate for HTTP errors.
LOG(INFO) << "Incrementing URL failure count due to error "
<< chromeos_update_engine::utils::ErrorCodeToString(err_code)
<< " (" << static_cast<int>(err_code) << ")";
*url_num_error_p += 1;
return false;
// Errors which are not specific to a URL and hence shouldn't result in
// the URL being penalized. This can happen in two cases:
// 1. We haven't started downloading anything: These errors don't cost us
// anything in terms of actual payload bytes, so we should just do the
// regular retries at the next update check.
// 2. We have successfully downloaded the payload: In this case, the
// payload attempt number would have been incremented and would take care
// of the back-off at the next update check.
// In either case, there's no need to update URL index or failure count.
case ErrorCode::kOmahaRequestError:
case ErrorCode::kOmahaResponseHandlerError:
case ErrorCode::kPostinstallRunnerError:
case ErrorCode::kFilesystemCopierError:
case ErrorCode::kInstallDeviceOpenError:
case ErrorCode::kKernelDeviceOpenError:
case ErrorCode::kDownloadNewPartitionInfoError:
case ErrorCode::kNewRootfsVerificationError:
case ErrorCode::kNewKernelVerificationError:
case ErrorCode::kPostinstallBootedFromFirmwareB:
case ErrorCode::kPostinstallFirmwareRONotUpdatable:
case ErrorCode::kOmahaRequestEmptyResponseError:
case ErrorCode::kOmahaRequestXMLParseError:
case ErrorCode::kOmahaResponseInvalid:
case ErrorCode::kOmahaUpdateIgnoredPerPolicy:
case ErrorCode::kOmahaUpdateDeferredPerPolicy:
case ErrorCode::kNonCriticalUpdateInOOBE:
case ErrorCode::kOmahaUpdateDeferredForBackoff:
case ErrorCode::kPostinstallPowerwashError:
case ErrorCode::kUpdateCanceledByChannelChange:
case ErrorCode::kOmahaRequestXMLHasEntityDecl:
case ErrorCode::kFilesystemVerifierError:
case ErrorCode::kUserCanceled:
case ErrorCode::kOmahaUpdateIgnoredOverCellular:
case ErrorCode::kUpdatedButNotActive:
case ErrorCode::kNoUpdate:
case ErrorCode::kRollbackNotPossible:
case ErrorCode::kFirstActiveOmahaPingSentPersistenceError:
case ErrorCode::kInternalLibCurlError:
case ErrorCode::kUnresolvedHostError:
case ErrorCode::kUnresolvedHostRecovered:
case ErrorCode::kNotEnoughSpace:
case ErrorCode::kDeviceCorrupted:
case ErrorCode::kPackageExcludedFromUpdate:
LOG(INFO) << "Not changing URL index or failure count due to error "
<< chromeos_update_engine::utils::ErrorCodeToString(err_code)
<< " (" << static_cast<int>(err_code) << ")";
return false;
case ErrorCode::kSuccess: // success code
case ErrorCode::kUmaReportedMax: // not an error code
case ErrorCode::kOmahaRequestHTTPResponseBase: // aggregated already
case ErrorCode::kDevModeFlag: // not an error code
case ErrorCode::kResumedFlag: // not an error code
case ErrorCode::kTestImageFlag: // not an error code
case ErrorCode::kTestOmahaUrlFlag: // not an error code
case ErrorCode::kSpecialFlags: // not an error code
// These shouldn't happen. Enumerating these explicitly here so that we
// can let the compiler warn about new error codes that are added to
// action_processor.h but not added here.
LOG(WARNING) << "Unexpected error "
<< chromeos_update_engine::utils::ErrorCodeToString(err_code)
<< " (" << static_cast<int>(err_code) << ")";
// Note: Not adding a default here so as to let the compiler warn us of
// any new enums that were added in the .h but not listed in this switch.
}
return false;
}
// Checks whether |url| can be used under given download restrictions.
bool IsUrlUsable(const string& url, bool http_allowed) {
return http_allowed ||
!base::StartsWith(
url, "http://", base::CompareCase::INSENSITIVE_ASCII);
}
} // namespace
namespace chromeos_update_manager {
unique_ptr<Policy> GetSystemPolicy() {
return std::make_unique<ChromeOSPolicy>();
}
const NextUpdateCheckPolicyConstants
ChromeOSPolicy::kNextUpdateCheckPolicyConstants = {
.timeout_initial_interval = 7 * 60,
.timeout_periodic_interval = 45 * 60,
.timeout_max_backoff_interval = 4 * 60 * 60,
.timeout_regular_fuzz = 10 * 60,
.attempt_backoff_max_interval_in_days = 16,
.attempt_backoff_fuzz_in_hours = 12,
};
const int ChromeOSPolicy::kMaxP2PAttempts = 10;
const int ChromeOSPolicy::kMaxP2PAttemptsPeriodInSeconds = 5 * 24 * 60 * 60;
EvalStatus ChromeOSPolicy::UpdateCheckAllowed(EvaluationContext* ec,
State* state,
string* error,
UpdateCheckParams* result) const {
// Set the default return values.
result->updates_enabled = true;
result->target_channel.clear();
result->lts_tag.clear();
result->target_version_prefix.clear();
result->rollback_allowed = false;
result->rollback_allowed_milestones = -1;
result->rollback_on_channel_downgrade = false;
result->interactive = false;
result->quick_fix_build_token.clear();
EnoughSlotsAbUpdatesPolicyImpl enough_slots_ab_updates_policy;
EnterpriseDevicePolicyImpl enterprise_device_policy;
OnlyUpdateOfficialBuildsPolicyImpl only_update_official_builds_policy;
InteractiveUpdatePolicyImpl interactive_update_policy;
OobePolicyImpl oobe_policy;
NextUpdateCheckTimePolicyImpl next_update_check_time_policy(
kNextUpdateCheckPolicyConstants);
vector<Policy const*> policies_to_consult = {
// Do not perform any updates if there are not enough slots to do A/B
// updates.
&enough_slots_ab_updates_policy,
// Check to see if Enterprise-managed (has DevicePolicy) and/or
// Kiosk-mode. If so, then defer to those settings.
&enterprise_device_policy,
// Check to see if an interactive update was requested.
&interactive_update_policy,
// Unofficial builds should not perform periodic update checks.
&only_update_official_builds_policy,
// If OOBE is enabled, wait until it is completed.
&oobe_policy,
// Ensure that periodic update checks are timed properly.
&next_update_check_time_policy,
};
// Now that the list of policy implementations, and the order to consult them,
// has been setup, consult the policies. If none of the policies make a
// definitive decisions about whether or not to check for updates, then allow
// the update check to happen.
EvalStatus status = ConsultPolicies(policies_to_consult,
&Policy::UpdateCheckAllowed,
ec,
state,
error,
result);
if (EvalStatus::kContinue != status) {
return status;
} else {
// It is time to check for an update.
LOG(INFO) << "Allowing update check.";
return EvalStatus::kSucceeded;
}
}
EvalStatus ChromeOSPolicy::UpdateCanBeApplied(EvaluationContext* ec,
State* state,
std::string* error,
ErrorCode* result,
InstallPlan* install_plan) const {
UpdateTimeRestrictionsPolicyImpl update_time_restrictions_policy;
InteractiveUpdatePolicyImpl interactive_update_policy;
vector<Policy const*> policies_to_consult = {
// Check to see if an interactive update has been requested.
&interactive_update_policy,
// Do not apply or download an update if we are inside one of the
// restricted times.
&update_time_restrictions_policy,
};
EvalStatus status = ConsultPolicies(policies_to_consult,
&Policy::UpdateCanBeApplied,
ec,
state,
error,
result,
install_plan);
if (EvalStatus::kContinue != status) {
return status;
} else {
// The update can proceed.
LOG(INFO) << "Allowing update to be applied.";
*result = ErrorCode::kSuccess;
return EvalStatus::kSucceeded;
}
}
EvalStatus ChromeOSPolicy::UpdateCanStart(
EvaluationContext* ec,
State* state,
string* error,
UpdateDownloadParams* result,
const UpdateState update_state) const {
// Set the default return values. Note that we set persisted values (backoff,
// scattering) to the same values presented in the update state. The reason is
// that preemptive returns, such as the case where an update check is due,
// should not clear off the said values; rather, it is the deliberate
// inference of new values that should cause them to be reset.
result->update_can_start = false;
result->cannot_start_reason = UpdateCannotStartReason::kUndefined;
result->download_url_idx = -1;
result->download_url_allowed = true;
result->download_url_num_errors = 0;
result->p2p_downloading_allowed = false;
result->p2p_sharing_allowed = false;
result->do_increment_failures = false;
result->backoff_expiry = update_state.backoff_expiry;
result->scatter_wait_period = update_state.scatter_wait_period;
result->scatter_check_threshold = update_state.scatter_check_threshold;
// Make sure that we're not due for an update check.
UpdateCheckParams check_result;
EvalStatus check_status = UpdateCheckAllowed(ec, state, error, &check_result);
if (check_status == EvalStatus::kFailed)
return EvalStatus::kFailed;
bool is_check_due = (check_status == EvalStatus::kSucceeded &&
check_result.updates_enabled == true);
// Check whether backoff applies, and if not then which URL can be used for
// downloading. These require scanning the download error log, and so they are
// done together.
UpdateBackoffAndDownloadUrlResult backoff_url_result;
EvalStatus backoff_url_status = UpdateBackoffAndDownloadUrl(
ec, state, error, &backoff_url_result, update_state);
if (backoff_url_status == EvalStatus::kFailed)
return EvalStatus::kFailed;
result->download_url_idx = backoff_url_result.url_idx;
result->download_url_num_errors = backoff_url_result.url_num_errors;
result->do_increment_failures = backoff_url_result.do_increment_failures;
result->backoff_expiry = backoff_url_result.backoff_expiry;
bool is_backoff_active =
(backoff_url_status == EvalStatus::kAskMeAgainLater) ||
!backoff_url_result.backoff_expiry.is_null();
DevicePolicyProvider* const dp_provider = state->device_policy_provider();
bool is_scattering_active = false;
EvalStatus scattering_status = EvalStatus::kSucceeded;
const bool* device_policy_is_loaded_p =
ec->GetValue(dp_provider->var_device_policy_is_loaded());
if (device_policy_is_loaded_p && *device_policy_is_loaded_p) {
// Check whether scattering applies to this update attempt. We should not be
// scattering if this is an interactive update check, or if OOBE is enabled
// but not completed.
//
// Note: current code further suppresses scattering if a "deadline"
// attribute is found in the Omaha response. However, it appears that the
// presence of this attribute is merely indicative of an OOBE update, during
// which we suppress scattering anyway.
bool is_scattering_applicable = false;
result->scatter_wait_period = kZeroInterval;
result->scatter_check_threshold = 0;
if (!update_state.interactive) {
const bool* is_oobe_enabled_p =
ec->GetValue(state->config_provider()->var_is_oobe_enabled());
if (is_oobe_enabled_p && !(*is_oobe_enabled_p)) {
is_scattering_applicable = true;
} else {
const bool* is_oobe_complete_p =
ec->GetValue(state->system_provider()->var_is_oobe_complete());
is_scattering_applicable = (is_oobe_complete_p && *is_oobe_complete_p);
}
}
// Compute scattering values.
if (is_scattering_applicable) {
UpdateScatteringResult scatter_result;
scattering_status =
UpdateScattering(ec, state, error, &scatter_result, update_state);
if (scattering_status == EvalStatus::kFailed) {
return EvalStatus::kFailed;
} else {
result->scatter_wait_period = scatter_result.wait_period;
result->scatter_check_threshold = scatter_result.check_threshold;
if (scattering_status == EvalStatus::kAskMeAgainLater ||
scatter_result.is_scattering)
is_scattering_active = true;
}
}
}
// Find out whether P2P is globally enabled.
bool p2p_enabled;
EvalStatus p2p_enabled_status = P2PEnabled(ec, state, error, &p2p_enabled);
if (p2p_enabled_status != EvalStatus::kSucceeded)
return EvalStatus::kFailed;
// Is P2P is enabled, consider allowing it for downloading and/or sharing.
if (p2p_enabled) {
// Sharing via P2P is allowed if not disabled by Omaha.
if (update_state.p2p_sharing_disabled) {
LOG(INFO) << "Blocked P2P sharing because it is disabled by Omaha.";
} else {
result->p2p_sharing_allowed = true;
}
// Downloading via P2P is allowed if not disabled by Omaha, an update is not
// interactive, and other limits haven't been reached.
if (update_state.p2p_downloading_disabled) {
LOG(INFO) << "Blocked P2P downloading because it is disabled by Omaha.";
} else if (update_state.interactive) {
LOG(INFO) << "Blocked P2P downloading because update is interactive.";
} else if (update_state.p2p_num_attempts >= kMaxP2PAttempts) {
LOG(INFO) << "Blocked P2P downloading as it was attempted too many "
"times.";
} else if (!update_state.p2p_first_attempted.is_null() &&
ec->IsWallclockTimeGreaterThan(
update_state.p2p_first_attempted +
TimeDelta::FromSeconds(kMaxP2PAttemptsPeriodInSeconds))) {
LOG(INFO) << "Blocked P2P downloading as its usage timespan exceeds "
"limit.";
} else {
// P2P download is allowed; if backoff or scattering are active, be sure
// to suppress them, yet prevent any download URL from being used.
result->p2p_downloading_allowed = true;
if (is_backoff_active || is_scattering_active) {
is_backoff_active = is_scattering_active = false;
result->download_url_allowed = false;
}
}
}
// Check for various deterrents.
if (is_check_due) {
result->cannot_start_reason = UpdateCannotStartReason::kCheckDue;
return EvalStatus::kSucceeded;
}
if (is_backoff_active) {
result->cannot_start_reason = UpdateCannotStartReason::kBackoff;
return backoff_url_status;
}
if (is_scattering_active) {
result->cannot_start_reason = UpdateCannotStartReason::kScattering;
return scattering_status;
}
if (result->download_url_idx < 0 && !result->p2p_downloading_allowed) {
result->cannot_start_reason = UpdateCannotStartReason::kCannotDownload;
return EvalStatus::kSucceeded;
}
// Update is good to go.
result->update_can_start = true;
return EvalStatus::kSucceeded;
}
EvalStatus ChromeOSPolicy::P2PEnabled(EvaluationContext* ec,
State* state,
string* error,
bool* result) const {
bool enabled = false;
// Determine whether use of P2P is allowed by policy. Even if P2P is not
// explicitly allowed, we allow it if the device is enterprise enrolled (that
// is, missing or empty owner string).
DevicePolicyProvider* const dp_provider = state->device_policy_provider();
const bool* device_policy_is_loaded_p =
ec->GetValue(dp_provider->var_device_policy_is_loaded());
if (device_policy_is_loaded_p && *device_policy_is_loaded_p) {
const bool* policy_au_p2p_enabled_p =
ec->GetValue(dp_provider->var_au_p2p_enabled());
if (policy_au_p2p_enabled_p) {
enabled = *policy_au_p2p_enabled_p;
} else {
const bool* policy_has_owner_p =
ec->GetValue(dp_provider->var_has_owner());
if (!policy_has_owner_p || !*policy_has_owner_p)
enabled = true;
}
}
// Enable P2P, if so mandated by the updater configuration. This is additive
// to whether or not P2P is enabled by device policy.
if (!enabled) {
const bool* updater_p2p_enabled_p =
ec->GetValue(state->updater_provider()->var_p2p_enabled());
enabled = updater_p2p_enabled_p && *updater_p2p_enabled_p;
}
*result = enabled;
return EvalStatus::kSucceeded;
}
EvalStatus ChromeOSPolicy::P2PEnabledChanged(EvaluationContext* ec,
State* state,
string* error,
bool* result,
bool prev_result) const {
EvalStatus status = P2PEnabled(ec, state, error, result);
if (status == EvalStatus::kSucceeded && *result == prev_result)
return EvalStatus::kAskMeAgainLater;
return status;
}
EvalStatus ChromeOSPolicy::UpdateBackoffAndDownloadUrl(
EvaluationContext* ec,
State* state,
string* error,
UpdateBackoffAndDownloadUrlResult* result,
const UpdateState& update_state) const {
DCHECK_GE(update_state.download_errors_max, 0);
// Set default result values.
result->do_increment_failures = false;
result->backoff_expiry = update_state.backoff_expiry;
result->url_idx = -1;
result->url_num_errors = 0;
const bool* is_official_build_p =
ec->GetValue(state->system_provider()->var_is_official_build());
bool is_official_build = (is_official_build_p ? *is_official_build_p : true);
// Check whether backoff is enabled.
bool may_backoff = false;
if (update_state.is_backoff_disabled) {
LOG(INFO) << "Backoff disabled by Omaha.";
} else if (update_state.interactive) {
LOG(INFO) << "No backoff for interactive updates.";
} else if (update_state.is_delta_payload) {
LOG(INFO) << "No backoff for delta payloads.";
} else if (!is_official_build) {
LOG(INFO) << "No backoff for unofficial builds.";
} else {
may_backoff = true;
}
// If previous backoff still in effect, block.
if (may_backoff && !update_state.backoff_expiry.is_null() &&
!ec->IsWallclockTimeGreaterThan(update_state.backoff_expiry)) {
LOG(INFO) << "Previous backoff has not expired, waiting.";
return EvalStatus::kAskMeAgainLater;
}
// Determine whether HTTP downloads are forbidden by policy. This only
// applies to official system builds; otherwise, HTTP is always enabled.
bool http_allowed = true;
if (is_official_build) {
DevicePolicyProvider* const dp_provider = state->device_policy_provider();
const bool* device_policy_is_loaded_p =
ec->GetValue(dp_provider->var_device_policy_is_loaded());
if (device_policy_is_loaded_p && *device_policy_is_loaded_p) {
const bool* policy_http_downloads_enabled_p =
ec->GetValue(dp_provider->var_http_downloads_enabled());
http_allowed = (!policy_http_downloads_enabled_p ||
*policy_http_downloads_enabled_p);
}
}
int url_idx = update_state.last_download_url_idx;
if (url_idx < 0)
url_idx = -1;
bool do_advance_url = false;
bool is_failure_occurred = false;
Time err_time;
// Scan the relevant part of the download error log, tracking which URLs are
// being used, and accounting the number of errors for each URL. Note that
// this process may not traverse all errors provided, as it may decide to bail
// out midway depending on the particular errors exhibited, the number of
// failures allowed, etc. When this ends, |url_idx| will point to the last URL
// used (-1 if starting fresh), |do_advance_url| will determine whether the
// URL needs to be advanced, and |err_time| the point in time when the last
// reported error occurred. Additionally, if the error log indicates that an
// update attempt has failed (abnormal), then |is_failure_occurred| will be
// set to true.
const int num_urls = update_state.download_urls.size();
int prev_url_idx = -1;
int url_num_errors = update_state.last_download_url_num_errors;
Time prev_err_time;
bool is_first = true;
for (const auto& err_tuple : update_state.download_errors) {
// Do some validation checks.
int used_url_idx = get<0>(err_tuple);
if (is_first && url_idx >= 0 && used_url_idx != url_idx) {
LOG(WARNING) << "First URL in error log (" << used_url_idx
<< ") not as expected (" << url_idx << ")";
}
is_first = false;
url_idx = used_url_idx;
if (url_idx < 0 || url_idx >= num_urls) {
LOG(ERROR) << "Download error log contains an invalid URL index ("
<< url_idx << ")";
return EvalStatus::kFailed;
}
err_time = get<2>(err_tuple);
if (!(prev_err_time.is_null() || err_time >= prev_err_time)) {
// TODO(garnold) Monotonicity cannot really be assumed when dealing with
// wallclock-based timestamps. However, we're making a simplifying
// assumption so as to keep the policy implementation straightforward, for
// now. In general, we should convert all timestamp handling in the
// UpdateManager to use monotonic time (instead of wallclock), including
// the computation of various expiration times (backoff, scattering, etc).
// The client will do whatever conversions necessary when
// persisting/retrieving these values across reboots. See chromium:408794.
LOG(ERROR) << "Download error timestamps not monotonically increasing.";
return EvalStatus::kFailed;
}
prev_err_time = err_time;
// Ignore errors that happened before the last known failed attempt.
if (!update_state.failures_last_updated.is_null() &&
err_time <= update_state.failures_last_updated)
continue;
if (prev_url_idx >= 0) {
if (url_idx < prev_url_idx) {
LOG(ERROR) << "The URLs in the download error log have wrapped around ("
<< prev_url_idx << "->" << url_idx
<< "). This should not have happened and means that there's "
"a bug. To be conservative, we record a failed attempt "
"(invalidating the rest of the error log) and resume "
"download from the first usable URL.";
url_idx = -1;
is_failure_occurred = true;
break;
}
if (url_idx > prev_url_idx) {
url_num_errors = 0;
do_advance_url = false;
}
}
if (HandleErrorCode(get<1>(err_tuple), &url_num_errors) ||
url_num_errors > update_state.download_errors_max)
do_advance_url = true;
prev_url_idx = url_idx;
}
// If required, advance to the next usable URL. If the URLs wraparound, we
// mark an update attempt failure. Also be sure to set the download error
// count to zero.
if (url_idx < 0 || do_advance_url) {
url_num_errors = 0;
int start_url_idx = -1;
do {
if (++url_idx == num_urls) {
url_idx = 0;
// We only mark failure if an actual advancing of a URL was required.
if (do_advance_url)
is_failure_occurred = true;
}
if (start_url_idx < 0)
start_url_idx = url_idx;
else if (url_idx == start_url_idx)
url_idx = -1; // No usable URL.
} while (url_idx >= 0 &&
!IsUrlUsable(update_state.download_urls[url_idx], http_allowed));
}
// If we have a download URL but a failure was observed, compute a new backoff
// expiry (if allowed). The backoff period is generally 2 ^ (num_failures - 1)
// days, bounded by the size of int and kAttemptBackoffMaxIntervalInDays, and
// fuzzed by kAttemptBackoffFuzzInHours hours. Backoff expiry is computed from
// the latest recorded time of error.
Time backoff_expiry;
if (url_idx >= 0 && is_failure_occurred && may_backoff) {
CHECK(!err_time.is_null())
<< "We must have an error timestamp if a failure occurred!";
const uint64_t* seed = ec->GetValue(state->random_provider()->var_seed());
POLICY_CHECK_VALUE_AND_FAIL(seed, error);
PRNG prng(*seed);
int exp =
min(update_state.num_failures, static_cast<int>(sizeof(int)) * 8 - 2);
TimeDelta backoff_interval = TimeDelta::FromDays(min(
1 << exp,
kNextUpdateCheckPolicyConstants.attempt_backoff_max_interval_in_days));
TimeDelta backoff_fuzz = TimeDelta::FromHours(
kNextUpdateCheckPolicyConstants.attempt_backoff_fuzz_in_hours);
TimeDelta wait_period = NextUpdateCheckTimePolicyImpl::FuzzedInterval(
&prng, backoff_interval.InSeconds(), backoff_fuzz.InSeconds());
backoff_expiry = err_time + wait_period;
// If the newly computed backoff already expired, nullify it.
if (ec->IsWallclockTimeGreaterThan(backoff_expiry))
backoff_expiry = Time();
}
result->do_increment_failures = is_failure_occurred;
result->backoff_expiry = backoff_expiry;
result->url_idx = url_idx;
result->url_num_errors = url_num_errors;
return EvalStatus::kSucceeded;
}
EvalStatus ChromeOSPolicy::UpdateScattering(
EvaluationContext* ec,
State* state,
string* error,
UpdateScatteringResult* result,
const UpdateState& update_state) const {
// Preconditions. These stem from the postconditions and usage contract.
DCHECK(update_state.scatter_wait_period >= kZeroInterval);
DCHECK_GE(update_state.scatter_check_threshold, 0);
// Set default result values.
result->is_scattering = false;
result->wait_period = kZeroInterval;
result->check_threshold = 0;
DevicePolicyProvider* const dp_provider = state->device_policy_provider();
// Ensure that a device policy is loaded.
const bool* device_policy_is_loaded_p =
ec->GetValue(dp_provider->var_device_policy_is_loaded());
if (!(device_policy_is_loaded_p && *device_policy_is_loaded_p))
return EvalStatus::kSucceeded;
// Is scattering enabled by policy?
const TimeDelta* scatter_factor_p =
ec->GetValue(dp_provider->var_scatter_factor());
if (!scatter_factor_p || *scatter_factor_p == kZeroInterval)
return EvalStatus::kSucceeded;
// Obtain a pseudo-random number generator.
const uint64_t* seed = ec->GetValue(state->random_provider()->var_seed());
POLICY_CHECK_VALUE_AND_FAIL(seed, error);
PRNG prng(*seed);
// Step 1: Maintain the scattering wait period.
//
// If no wait period was previously determined, or it no longer fits in the
// scatter factor, then generate a new one. Otherwise, keep the one we have.
TimeDelta wait_period = update_state.scatter_wait_period;
if (wait_period == kZeroInterval || wait_period > *scatter_factor_p) {
wait_period = TimeDelta::FromSeconds(
prng.RandMinMax(1, scatter_factor_p->InSeconds()));
}
// If we surpassed the wait period or the max scatter period associated with
// the update, then no wait is needed.
Time wait_expires = (update_state.first_seen +
min(wait_period, update_state.scatter_wait_period_max));
if (ec->IsWallclockTimeGreaterThan(wait_expires))
wait_period = kZeroInterval;
// Step 2: Maintain the update check threshold count.
//
// If an update check threshold is not specified then generate a new
// one.
int check_threshold = update_state.scatter_check_threshold;
if (check_threshold == 0) {
check_threshold = prng.RandMinMax(update_state.scatter_check_threshold_min,
update_state.scatter_check_threshold_max);
}
// If the update check threshold is not within allowed range then nullify it.
// TODO(garnold) This is compliant with current logic found in
// OmahaRequestAction::IsUpdateCheckCountBasedWaitingSatisfied(). We may want
// to change it so that it behaves similarly to the wait period case, namely
// if the current value exceeds the maximum, we set a new one within range.
if (check_threshold > update_state.scatter_check_threshold_max)
check_threshold = 0;
// If the update check threshold is non-zero and satisfied, then nullify it.
if (check_threshold > 0 && update_state.num_checks >= check_threshold)
check_threshold = 0;
bool is_scattering = (wait_period != kZeroInterval || check_threshold);
EvalStatus ret = EvalStatus::kSucceeded;
if (is_scattering && wait_period == update_state.scatter_wait_period &&
check_threshold == update_state.scatter_check_threshold)
ret = EvalStatus::kAskMeAgainLater;
result->is_scattering = is_scattering;
result->wait_period = wait_period;
result->check_threshold = check_threshold;
return ret;
}
} // namespace chromeos_update_manager