aosp/hardware_android.cc - platform/system/update_engine - Gitiles

 //
 // Copyright (C) 2015 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/aosp/hardware_android.h"

 #include <sys/types.h>

 #include <memory>
 #include <string>
 #include <string_view>

 #include <android/sysprop/GkiProperties.sysprop.h>
 #include <android-base/properties.h>
 #include <base/files/file_util.h>
 #include <base/strings/string_number_conversions.h>
 #include <base/strings/string_util.h>
 #include <bootloader_message/bootloader_message.h>
 #include <fstab/fstab.h>
 #include <libavb/libavb.h>
 #include <libavb_user/avb_ops_user.h>

 #include "update_engine/common/error_code_utils.h"
 #include "update_engine/common/hardware.h"
 #include "update_engine/common/platform_constants.h"
 #include "update_engine/common/utils.h"

 #ifndef __ANDROID_RECOVERY__
 #include <android/sysprop/OtaProperties.sysprop.h>
 #endif

 using android::base::GetBoolProperty;
 using android::base::GetIntProperty;
 using android::base::GetProperty;
 using std::string;

 namespace chromeos_update_engine {

 namespace {

 // Android properties that identify the hardware and potentially non-updatable
 // parts of the bootloader (such as the bootloader version and the baseband
 // version).
 const char kPropProductManufacturer[] = "ro.product.manufacturer";
 const char kPropBootHardwareSKU[] = "ro.boot.hardware.sku";
 const char kPropBootRevision[] = "ro.boot.revision";
 const char kPropBuildDateUTC[] = "ro.build.date.utc";

 string GetPartitionBuildDate(const string& partition_name) {
   return android::base::GetProperty("ro." + partition_name + ".build.date.utc",
                                     "");
 }

 ErrorCode IsTimestampNewerLogged(const std::string& partition_name,
                                  const std::string& old_version,
                                  const std::string& new_version) {
   auto error_code = utils::IsTimestampNewer(old_version, new_version);
   if (error_code != ErrorCode::kSuccess) {
     LOG(WARNING) << "Timestamp check failed with "
                  << utils::ErrorCodeToString(error_code) << ": "
                  << partition_name << " Partition timestamp: " << old_version
                  << " Update timestamp: " << new_version;
   }
   return error_code;
 }

 void SetVbmetaDigestProp(const std::string& value) {
 #ifndef __ANDROID_RECOVERY__
   if (!android::sysprop::OtaProperties::other_vbmeta_digest(value)) {
     LOG(WARNING) << "Failed to set other vbmeta digest to " << value;
   }
 #endif
 }

 std::string CalculateVbmetaDigestForInactiveSlot() {
   AvbSlotVerifyData* avb_slot_data;

   auto suffix = fs_mgr_get_other_slot_suffix();
   const char* requested_partitions[] = {nullptr};
   auto avb_ops = avb_ops_user_new();
   auto verify_result = avb_slot_verify(avb_ops,
                                        requested_partitions,
                                        suffix.c_str(),
                                        AVB_SLOT_VERIFY_FLAGS_NONE,
                                        AVB_HASHTREE_ERROR_MODE_EIO,
                                        &avb_slot_data);
   if (verify_result != AVB_SLOT_VERIFY_RESULT_OK) {
     LOG(WARNING) << "Failed to verify avb slot data: " << verify_result;
     return "";
   }

   uint8_t vbmeta_digest[AVB_SHA256_DIGEST_SIZE];
   avb_slot_verify_data_calculate_vbmeta_digest(
       avb_slot_data, AVB_DIGEST_TYPE_SHA256, vbmeta_digest);

   std::string encoded_digest =
       base::HexEncode(vbmeta_digest, AVB_SHA256_DIGEST_SIZE);
   return base::ToLowerASCII(encoded_digest);
 }

 }  // namespace

 namespace hardware {

 // Factory defined in hardware.h.
 std::unique_ptr<HardwareInterface> CreateHardware() {
   return std::make_unique<HardwareAndroid>();
 }

 }  // namespace hardware

 // In Android there are normally three kinds of builds: eng, userdebug and user.
 // These builds target respectively a developer build, a debuggable version of
 // the final product and the pristine final product the end user will run.
 // Apart from the ro.build.type property name, they differ in the following
 // properties that characterize the builds:
 // * eng builds: ro.secure=0 and ro.debuggable=1
 // * userdebug builds: ro.secure=1 and ro.debuggable=1
 // * user builds: ro.secure=1 and ro.debuggable=0
 //
 // See IsOfficialBuild() and IsNormalMode() for the meaning of these options in
 // Android.

 bool HardwareAndroid::IsOfficialBuild() const {
   // We run an official build iff ro.secure == 1, because we expect the build to
   // behave like the end user product and check for updates. Note that while
   // developers are able to build "official builds" by just running "make user",
   // that will only result in a more restrictive environment. The important part
   // is that we don't produce and push "non-official" builds to the end user.
   //
   // In case of a non-bool value, we take the most restrictive option and
   // assume we are in an official-build.
   return GetBoolProperty("ro.secure", true);
 }

 bool HardwareAndroid::IsNormalBootMode() const {
   // We are running in "dev-mode" iff ro.debuggable == 1. In dev-mode the
   // update_engine will allow extra developers options, such as providing a
   // different update URL. In case of error, we assume the build is in
   // normal-mode.
   return !GetBoolProperty("ro.debuggable", false);
 }

 bool HardwareAndroid::AreDevFeaturesEnabled() const {
   return !IsNormalBootMode();
 }

 bool HardwareAndroid::IsOOBEEnabled() const {
   // No OOBE flow blocking updates for Android-based boards.
   return false;
 }

 bool HardwareAndroid::IsOOBEComplete(base::Time* out_time_of_oobe) const {
   LOG(WARNING) << "OOBE is not enabled but IsOOBEComplete() called.";
   if (out_time_of_oobe)
     *out_time_of_oobe = base::Time();
   return true;
 }

 string HardwareAndroid::GetHardwareClass() const {
   auto manufacturer = GetProperty(kPropProductManufacturer, "");
   auto sku = GetProperty(kPropBootHardwareSKU, "");
   auto revision = GetProperty(kPropBootRevision, "");

   return manufacturer + ":" + sku + ":" + revision;
 }

 string HardwareAndroid::GetDeviceRequisition() const {
   LOG(WARNING) << "STUB: Getting requisition is not supported.";
   return "";
 }

 int HardwareAndroid::GetMinKernelKeyVersion() const {
   LOG(WARNING) << "STUB: No Kernel key version is available.";
   return -1;
 }

 int HardwareAndroid::GetMinFirmwareKeyVersion() const {
   LOG(WARNING) << "STUB: No Firmware key version is available.";
   return -1;
 }

 int HardwareAndroid::GetMaxFirmwareKeyRollforward() const {
   LOG(WARNING) << "STUB: Getting firmware_max_rollforward is not supported.";
   return -1;
 }

 bool HardwareAndroid::SetMaxFirmwareKeyRollforward(
     int firmware_max_rollforward) {
   LOG(WARNING) << "STUB: Setting firmware_max_rollforward is not supported.";
   return false;
 }

 bool HardwareAndroid::SetMaxKernelKeyRollforward(int kernel_max_rollforward) {
   LOG(WARNING) << "STUB: Setting kernel_max_rollforward is not supported.";
   return false;
 }

 int HardwareAndroid::GetPowerwashCount() const {
   LOG(WARNING) << "STUB: Assuming no factory reset was performed.";
   return 0;
 }

 bool HardwareAndroid::SchedulePowerwash(bool save_rollback_data) {
   LOG(INFO) << "Scheduling a powerwash to BCB.";
   LOG_IF(WARNING, save_rollback_data) << "save_rollback_data was true but "
                                       << "isn't supported.";
   string err;
   if (!update_bootloader_message({"--wipe_data", "--reason=wipe_data_from_ota"},
                                  &err)) {
     LOG(ERROR) << "Failed to update bootloader message: " << err;
     return false;
   }
   return true;
 }

 bool HardwareAndroid::CancelPowerwash() {
   string err;
   if (!clear_bootloader_message(&err)) {
     LOG(ERROR) << "Failed to clear bootloader message: " << err;
     return false;
   }
   return true;
 }

 bool HardwareAndroid::GetNonVolatileDirectory(base::FilePath* path) const {
   base::FilePath local_path(constants::kNonVolatileDirectory);
   if (!base::DirectoryExists(local_path)) {
     LOG(ERROR) << "Non-volatile directory not found: " << local_path.value();
     return false;
   }
   *path = local_path;
   return true;
 }

 bool HardwareAndroid::GetPowerwashSafeDirectory(base::FilePath* path) const {
   // On Android, we don't have a directory persisted across powerwash.
   return false;
 }

 int64_t HardwareAndroid::GetBuildTimestamp() const {
   return GetIntProperty<int64_t>(kPropBuildDateUTC, 0);
 }

 // Returns true if the device runs an userdebug build, and explicitly allows OTA
 // downgrade.
 bool HardwareAndroid::AllowDowngrade() const {
   return GetBoolProperty("ro.ota.allow_downgrade", false) &&
          GetBoolProperty("ro.debuggable", false);
 }

 bool HardwareAndroid::GetFirstActiveOmahaPingSent() const {
   LOG(WARNING) << "STUB: Assuming first active omaha was never set.";
   return false;
 }

 bool HardwareAndroid::SetFirstActiveOmahaPingSent() {
   LOG(WARNING) << "STUB: Assuming first active omaha is set.";
   // We will set it true, so its failure doesn't cause escalation.
   return true;
 }

 void HardwareAndroid::SetWarmReset(bool warm_reset) {
   if constexpr (!constants::kIsRecovery) {
     constexpr char warm_reset_prop[] = "ota.warm_reset";
     if (!android::base::SetProperty(warm_reset_prop, warm_reset ? "1" : "0")) {
       LOG(WARNING) << "Failed to set prop " << warm_reset_prop;
     }
   }
 }

 void HardwareAndroid::SetVbmetaDigestForInactiveSlot(bool reset) {
   if constexpr (constants::kIsRecovery) {
     return;
   }

   if (android::base::GetProperty("ro.boot.avb_version", "").empty() &&
       android::base::GetProperty("ro.boot.vbmeta.avb_version", "").empty()) {
     LOG(INFO) << "Device doesn't use avb, skipping setting vbmeta digest";
     return;
   }

   if (reset) {
     SetVbmetaDigestProp("");
     return;
   }

   std::string digest = CalculateVbmetaDigestForInactiveSlot();
   if (digest.empty()) {
     LOG(WARNING) << "Failed to calculate the vbmeta digest for the other slot";
     return;
   }
   SetVbmetaDigestProp(digest);
 }

 string HardwareAndroid::GetVersionForLogging(
     const string& partition_name) const {
   if (partition_name == "boot") {
     // ro.bootimage.build.date.utc
     return GetPartitionBuildDate("bootimage");
   }
   return GetPartitionBuildDate(partition_name);
 }

 ErrorCode HardwareAndroid::IsPartitionUpdateValid(
     const string& partition_name, const string& new_version) const {
   if (partition_name == "boot") {
     const auto old_version = GetPartitionBuildDate("bootimage");
     auto error_code =
         IsTimestampNewerLogged(partition_name, old_version, new_version);
     if (error_code == ErrorCode::kPayloadTimestampError) {
       bool prevent_downgrade =
           android::sysprop::GkiProperties::prevent_downgrade_version().value_or(
               false);
       if (!prevent_downgrade) {
         LOG(WARNING) << "Downgrade of boot image is detected, but permitting "
                         "update because device does not prevent boot image "
                         "downgrade";
         // If prevent_downgrade_version sysprop is not explicitly set, permit
         // downgrade in boot image version.
         // Even though error_code is overridden here, always call
         // IsTimestampNewerLogged to produce log messages.
         error_code = ErrorCode::kSuccess;
       }
     }
     return error_code;
   }

   const auto old_version = GetPartitionBuildDate(partition_name);
   // TODO(zhangkelvin)  for some partitions, missing a current timestamp should
   // be an error, e.g. system, vendor, product etc.
   auto error_code =
       IsTimestampNewerLogged(partition_name, old_version, new_version);
   return error_code;
 }

 // Mount options for non-system partitions. This option causes selinux treat
 // every file in the mounted filesystem as having the 'postinstall_file'
 // context, regardless of what the filesystem itself records. See "SELinux
 // User's and Administrator's Guide" for more information on this option.
 constexpr const char* kDefaultPostinstallMountOptions =
     "context=u:object_r:postinstall_file:s0";

 // Mount options for system partitions. This option causes selinux to use the
 // 'postinstall_file' context as a fallback if there are no other selinux
 // contexts associated with the file in the mounted partition. See "SELinux
 // User's and Administrator's Guide" for more information on this option.
 constexpr const char* kSystemPostinstallMountOptions =
     "defcontext=u:object_r:postinstall_file:s0";

 // Name of the system-partition
 constexpr std::string_view kSystemPartitionName = "system";

 const char* HardwareAndroid::GetPartitionMountOptions(
     const std::string& partition_name) const {
   if (partition_name == kSystemPartitionName) {
     return kSystemPostinstallMountOptions;
   } else {
     return kDefaultPostinstallMountOptions;
   }
 }

 }  // namespace chromeos_update_engine
	//
	// Copyright (C) 2015 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/aosp/hardware_android.h"

	#include <sys/types.h>

	#include <memory>
	#include <string>
	#include <string_view>

	#include <android/sysprop/GkiProperties.sysprop.h>
	#include <android-base/properties.h>
	#include <base/files/file_util.h>
	#include <base/strings/string_number_conversions.h>
	#include <base/strings/string_util.h>
	#include <bootloader_message/bootloader_message.h>
	#include <fstab/fstab.h>
	#include <libavb/libavb.h>
	#include <libavb_user/avb_ops_user.h>

	#include "update_engine/common/error_code_utils.h"
	#include "update_engine/common/hardware.h"
	#include "update_engine/common/platform_constants.h"
	#include "update_engine/common/utils.h"

	#ifndef __ANDROID_RECOVERY__
	#include <android/sysprop/OtaProperties.sysprop.h>
	#endif

	using android::base::GetBoolProperty;
	using android::base::GetIntProperty;
	using android::base::GetProperty;
	using std::string;

	namespace chromeos_update_engine {

	namespace {

	// Android properties that identify the hardware and potentially non-updatable
	// parts of the bootloader (such as the bootloader version and the baseband
	// version).
	const char kPropProductManufacturer[] = "ro.product.manufacturer";
	const char kPropBootHardwareSKU[] = "ro.boot.hardware.sku";
	const char kPropBootRevision[] = "ro.boot.revision";
	const char kPropBuildDateUTC[] = "ro.build.date.utc";

	string GetPartitionBuildDate(const string& partition_name) {
	return android::base::GetProperty("ro." + partition_name + ".build.date.utc",
	"");
	}

	ErrorCode IsTimestampNewerLogged(const std::string& partition_name,
	const std::string& old_version,
	const std::string& new_version) {
	auto error_code = utils::IsTimestampNewer(old_version, new_version);
	if (error_code != ErrorCode::kSuccess) {
	LOG(WARNING) << "Timestamp check failed with "
	<< utils::ErrorCodeToString(error_code) << ": "
	<< partition_name << " Partition timestamp: " << old_version
	<< " Update timestamp: " << new_version;
	}
	return error_code;
	}

	void SetVbmetaDigestProp(const std::string& value) {
	#ifndef __ANDROID_RECOVERY__
	if (!android::sysprop::OtaProperties::other_vbmeta_digest(value)) {
	LOG(WARNING) << "Failed to set other vbmeta digest to " << value;
	}
	#endif
	}

	std::string CalculateVbmetaDigestForInactiveSlot() {
	AvbSlotVerifyData* avb_slot_data;

	auto suffix = fs_mgr_get_other_slot_suffix();
	const char* requested_partitions[] = {nullptr};
	auto avb_ops = avb_ops_user_new();
	auto verify_result = avb_slot_verify(avb_ops,
	requested_partitions,
	suffix.c_str(),
	AVB_SLOT_VERIFY_FLAGS_NONE,
	AVB_HASHTREE_ERROR_MODE_EIO,
	&avb_slot_data);
	if (verify_result != AVB_SLOT_VERIFY_RESULT_OK) {
	LOG(WARNING) << "Failed to verify avb slot data: " << verify_result;
	return "";
	}

	uint8_t vbmeta_digest[AVB_SHA256_DIGEST_SIZE];
	avb_slot_verify_data_calculate_vbmeta_digest(
	avb_slot_data, AVB_DIGEST_TYPE_SHA256, vbmeta_digest);

	std::string encoded_digest =
	base::HexEncode(vbmeta_digest, AVB_SHA256_DIGEST_SIZE);
	return base::ToLowerASCII(encoded_digest);
	}

	} // namespace

	namespace hardware {

	// Factory defined in hardware.h.
	std::unique_ptr<HardwareInterface> CreateHardware() {
	return std::make_unique<HardwareAndroid>();
	}

	} // namespace hardware

	// In Android there are normally three kinds of builds: eng, userdebug and user.
	// These builds target respectively a developer build, a debuggable version of
	// the final product and the pristine final product the end user will run.
	// Apart from the ro.build.type property name, they differ in the following
	// properties that characterize the builds:
	// * eng builds: ro.secure=0 and ro.debuggable=1
	// * userdebug builds: ro.secure=1 and ro.debuggable=1
	// * user builds: ro.secure=1 and ro.debuggable=0
	//
	// See IsOfficialBuild() and IsNormalMode() for the meaning of these options in
	// Android.

	bool HardwareAndroid::IsOfficialBuild() const {
	// We run an official build iff ro.secure == 1, because we expect the build to
	// behave like the end user product and check for updates. Note that while
	// developers are able to build "official builds" by just running "make user",
	// that will only result in a more restrictive environment. The important part
	// is that we don't produce and push "non-official" builds to the end user.
	//
	// In case of a non-bool value, we take the most restrictive option and
	// assume we are in an official-build.
	return GetBoolProperty("ro.secure", true);
	}

	bool HardwareAndroid::IsNormalBootMode() const {
	// We are running in "dev-mode" iff ro.debuggable == 1. In dev-mode the
	// update_engine will allow extra developers options, such as providing a
	// different update URL. In case of error, we assume the build is in
	// normal-mode.
	return !GetBoolProperty("ro.debuggable", false);
	}

	bool HardwareAndroid::AreDevFeaturesEnabled() const {
	return !IsNormalBootMode();
	}

	bool HardwareAndroid::IsOOBEEnabled() const {
	// No OOBE flow blocking updates for Android-based boards.
	return false;
	}

	bool HardwareAndroid::IsOOBEComplete(base::Time* out_time_of_oobe) const {
	LOG(WARNING) << "OOBE is not enabled but IsOOBEComplete() called.";
	if (out_time_of_oobe)
	*out_time_of_oobe = base::Time();
	return true;
	}

	string HardwareAndroid::GetHardwareClass() const {
	auto manufacturer = GetProperty(kPropProductManufacturer, "");
	auto sku = GetProperty(kPropBootHardwareSKU, "");
	auto revision = GetProperty(kPropBootRevision, "");

	return manufacturer + ":" + sku + ":" + revision;
	}

	string HardwareAndroid::GetDeviceRequisition() const {
	LOG(WARNING) << "STUB: Getting requisition is not supported.";
	return "";
	}

	int HardwareAndroid::GetMinKernelKeyVersion() const {
	LOG(WARNING) << "STUB: No Kernel key version is available.";
	return -1;
	}

	int HardwareAndroid::GetMinFirmwareKeyVersion() const {
	LOG(WARNING) << "STUB: No Firmware key version is available.";
	return -1;
	}

	int HardwareAndroid::GetMaxFirmwareKeyRollforward() const {
	LOG(WARNING) << "STUB: Getting firmware_max_rollforward is not supported.";
	return -1;
	}

	bool HardwareAndroid::SetMaxFirmwareKeyRollforward(
	int firmware_max_rollforward) {
	LOG(WARNING) << "STUB: Setting firmware_max_rollforward is not supported.";
	return false;
	}

	bool HardwareAndroid::SetMaxKernelKeyRollforward(int kernel_max_rollforward) {
	LOG(WARNING) << "STUB: Setting kernel_max_rollforward is not supported.";
	return false;
	}

	int HardwareAndroid::GetPowerwashCount() const {
	LOG(WARNING) << "STUB: Assuming no factory reset was performed.";
	return 0;
	}

	bool HardwareAndroid::SchedulePowerwash(bool save_rollback_data) {
	LOG(INFO) << "Scheduling a powerwash to BCB.";
	LOG_IF(WARNING, save_rollback_data) << "save_rollback_data was true but "
	<< "isn't supported.";
	string err;
	if (!update_bootloader_message({"--wipe_data", "--reason=wipe_data_from_ota"},
	&err)) {
	LOG(ERROR) << "Failed to update bootloader message: " << err;
	return false;
	}
	return true;
	}

	bool HardwareAndroid::CancelPowerwash() {
	string err;
	if (!clear_bootloader_message(&err)) {
	LOG(ERROR) << "Failed to clear bootloader message: " << err;
	return false;
	}
	return true;
	}

	bool HardwareAndroid::GetNonVolatileDirectory(base::FilePath* path) const {
	base::FilePath local_path(constants::kNonVolatileDirectory);
	if (!base::DirectoryExists(local_path)) {
	LOG(ERROR) << "Non-volatile directory not found: " << local_path.value();
	return false;
	}
	*path = local_path;
	return true;
	}

	bool HardwareAndroid::GetPowerwashSafeDirectory(base::FilePath* path) const {
	// On Android, we don't have a directory persisted across powerwash.
	return false;
	}

	int64_t HardwareAndroid::GetBuildTimestamp() const {
	return GetIntProperty<int64_t>(kPropBuildDateUTC, 0);
	}

	// Returns true if the device runs an userdebug build, and explicitly allows OTA
	// downgrade.
	bool HardwareAndroid::AllowDowngrade() const {
	return GetBoolProperty("ro.ota.allow_downgrade", false) &&
	GetBoolProperty("ro.debuggable", false);
	}

	bool HardwareAndroid::GetFirstActiveOmahaPingSent() const {
	LOG(WARNING) << "STUB: Assuming first active omaha was never set.";
	return false;
	}

	bool HardwareAndroid::SetFirstActiveOmahaPingSent() {
	LOG(WARNING) << "STUB: Assuming first active omaha is set.";
	// We will set it true, so its failure doesn't cause escalation.
	return true;
	}

	void HardwareAndroid::SetWarmReset(bool warm_reset) {
	if constexpr (!constants::kIsRecovery) {
	constexpr char warm_reset_prop[] = "ota.warm_reset";
	if (!android::base::SetProperty(warm_reset_prop, warm_reset ? "1" : "0")) {
	LOG(WARNING) << "Failed to set prop " << warm_reset_prop;
	}
	}
	}

	void HardwareAndroid::SetVbmetaDigestForInactiveSlot(bool reset) {
	if constexpr (constants::kIsRecovery) {
	return;
	}

	if (android::base::GetProperty("ro.boot.avb_version", "").empty() &&
	android::base::GetProperty("ro.boot.vbmeta.avb_version", "").empty()) {
	LOG(INFO) << "Device doesn't use avb, skipping setting vbmeta digest";
	return;
	}

	if (reset) {
	SetVbmetaDigestProp("");
	return;
	}

	std::string digest = CalculateVbmetaDigestForInactiveSlot();
	if (digest.empty()) {
	LOG(WARNING) << "Failed to calculate the vbmeta digest for the other slot";
	return;
	}
	SetVbmetaDigestProp(digest);
	}

	string HardwareAndroid::GetVersionForLogging(
	const string& partition_name) const {
	if (partition_name == "boot") {
	// ro.bootimage.build.date.utc
	return GetPartitionBuildDate("bootimage");
	}
	return GetPartitionBuildDate(partition_name);
	}

	ErrorCode HardwareAndroid::IsPartitionUpdateValid(
	const string& partition_name, const string& new_version) const {
	if (partition_name == "boot") {
	const auto old_version = GetPartitionBuildDate("bootimage");
	auto error_code =
	IsTimestampNewerLogged(partition_name, old_version, new_version);
	if (error_code == ErrorCode::kPayloadTimestampError) {
	bool prevent_downgrade =
	android::sysprop::GkiProperties::prevent_downgrade_version().value_or(
	false);
	if (!prevent_downgrade) {
	LOG(WARNING) << "Downgrade of boot image is detected, but permitting "
	"update because device does not prevent boot image "
	"downgrade";
	// If prevent_downgrade_version sysprop is not explicitly set, permit
	// downgrade in boot image version.
	// Even though error_code is overridden here, always call
	// IsTimestampNewerLogged to produce log messages.
	error_code = ErrorCode::kSuccess;
	}
	}
	return error_code;
	}

	const auto old_version = GetPartitionBuildDate(partition_name);
	// TODO(zhangkelvin) for some partitions, missing a current timestamp should
	// be an error, e.g. system, vendor, product etc.
	auto error_code =
	IsTimestampNewerLogged(partition_name, old_version, new_version);
	return error_code;
	}

	// Mount options for non-system partitions. This option causes selinux treat
	// every file in the mounted filesystem as having the 'postinstall_file'
	// context, regardless of what the filesystem itself records. See "SELinux
	// User's and Administrator's Guide" for more information on this option.
	constexpr const char* kDefaultPostinstallMountOptions =
	"context=u:object_r:postinstall_file:s0";

	// Mount options for system partitions. This option causes selinux to use the
	// 'postinstall_file' context as a fallback if there are no other selinux
	// contexts associated with the file in the mounted partition. See "SELinux
	// User's and Administrator's Guide" for more information on this option.
	constexpr const char* kSystemPostinstallMountOptions =
	"defcontext=u:object_r:postinstall_file:s0";

	// Name of the system-partition
	constexpr std::string_view kSystemPartitionName = "system";

	const char* HardwareAndroid::GetPartitionMountOptions(
	const std::string& partition_name) const {
	if (partition_name == kSystemPartitionName) {
	return kSystemPostinstallMountOptions;
	} else {
	return kDefaultPostinstallMountOptions;
	}
	}

	} // namespace chromeos_update_engine