microdroid_manager/src/vm_secret.rs - android_packages_modules_Virtualization - Gitiles

 // Copyright 2023, 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.

 //! Class for encapsulating & managing represent VM secrets.

 use anyhow::{anyhow, ensure, Result};
 use android_system_virtualmachineservice::aidl::android::system::virtualmachineservice::IVirtualMachineService::IVirtualMachineService;
 use android_hardware_security_secretkeeper::aidl::android::hardware::security::secretkeeper::ISecretkeeper::ISecretkeeper;
 use secretkeeper_comm::data_types::request::Request;
 use binder::{Strong};
 use coset::CborSerializable;
 use dice_policy_builder::{CertIndex, ConstraintSpec, ConstraintType, policy_for_dice_chain, MissingAction, WILDCARD_FULL_ARRAY};
 use diced_open_dice::{DiceArtifacts, OwnedDiceArtifacts};
 use keystore2_crypto::ZVec;
 use openssl::hkdf::hkdf;
 use openssl::md::Md;
 use openssl::sha;
 use secretkeeper_client::dice::OwnedDiceArtifactsWithExplicitKey;
 use secretkeeper_client::SkSession;
 use secretkeeper_comm::data_types::{Id, ID_SIZE, Secret, SECRET_SIZE};
 use secretkeeper_comm::data_types::response::Response;
 use secretkeeper_comm::data_types::packet::{ResponsePacket, ResponseType};
 use secretkeeper_comm::data_types::request_response_impl::{
     StoreSecretRequest, GetSecretResponse, GetSecretRequest};
 use secretkeeper_comm::data_types::error::SecretkeeperError;
 use zeroize::Zeroizing;

 const ENCRYPTEDSTORE_KEY_IDENTIFIER: &str = "encryptedstore_key";
 const AUTHORITY_HASH: i64 = -4670549;
 const MODE: i64 = -4670551;
 const CONFIG_DESC: i64 = -4670548;
 const SECURITY_VERSION: i64 = -70005;
 const SUBCOMPONENT_DESCRIPTORS: i64 = -71002;
 const SUBCOMPONENT_SECURITY_VERSION: i64 = 2;
 const SUBCOMPONENT_AUTHORITY_HASH: i64 = 4;
 // Index of DiceChainEntry corresponding to Payload (relative to the end considering DICE Chain
 // as an array)
 const PAYLOAD_INDEX_FROM_END: usize = 0;

 // Generated using hexdump -vn32 -e'14/1 "0x%02X, " 1 "\n"' /dev/urandom
 const SALT_ENCRYPTED_STORE: &[u8] = &[
     0xFC, 0x1D, 0x35, 0x7B, 0x96, 0xF3, 0xEF, 0x17, 0x78, 0x7D, 0x70, 0xED, 0xEA, 0xFE, 0x1D, 0x6F,
     0xB3, 0xF9, 0x40, 0xCE, 0xDD, 0x99, 0x40, 0xAA, 0xA7, 0x0E, 0x92, 0x73, 0x90, 0x86, 0x4A, 0x75,
 ];
 const SALT_PAYLOAD_SERVICE: &[u8] = &[
     0x8B, 0x0F, 0xF0, 0xD3, 0xB1, 0x69, 0x2B, 0x95, 0x84, 0x2C, 0x9E, 0x3C, 0x99, 0x56, 0x7A, 0x22,
     0x55, 0xF8, 0x08, 0x23, 0x81, 0x5F, 0xF5, 0x16, 0x20, 0x3E, 0xBE, 0xBA, 0xB7, 0xA8, 0x43, 0x92,
 ];

 const SKP_SECRET_NP_VM: [u8; SECRET_SIZE] = [
     0xA9, 0x89, 0x97, 0xFE, 0xAE, 0x97, 0x55, 0x4B, 0x32, 0x35, 0xF0, 0xE8, 0x93, 0xDA, 0xEA, 0x24,
     0x06, 0xAC, 0x36, 0x8B, 0x3C, 0x95, 0x50, 0x16, 0x67, 0x71, 0x65, 0x26, 0xEB, 0xD0, 0xC3, 0x98,
 ];

 pub enum VmSecret {
     // V2 secrets are derived from 2 independently secured secrets:
     //      1. Secretkeeper protected secrets (skp secret).
     //      2. Dice Sealing CDIs (Similar to V1).
     //
     // These are protected against rollback of boot images i.e. VM instance rebooted
     // with downgraded images will not have access to VM's secret.
     // V2 secrets require hardware support - Secretkeeper HAL, which (among other things)
     // is backed by tamper-evident storage, providing rollback protection to these secrets.
     V2 { dice_artifacts: OwnedDiceArtifactsWithExplicitKey, skp_secret: ZVec },
     // V1 secrets are not protected against rollback of boot images.
     // They are reliable only if rollback of images was prevented by verified boot ie,
     // each stage (including pvmfw/Microdroid/Microdroid Manager) prevents downgrade of next
     // stage. These are now legacy secrets & used only when Secretkeeper HAL is not supported
     // by device.
     V1 { dice_artifacts: OwnedDiceArtifacts },
 }

 impl VmSecret {
     pub fn new(
         id: [u8; ID_SIZE],
         dice_artifacts: OwnedDiceArtifacts,
         vm_service: &Strong<dyn IVirtualMachineService>,
     ) -> Result<Self> {
         ensure!(dice_artifacts.bcc().is_some(), "Dice chain missing");

         let Some(sk_service) = is_sk_supported(vm_service)? else {
             // Use V1 secrets if Secretkeeper is not supported.
             return Ok(Self::V1 { dice_artifacts });
         };
         let explicit_dice =
             OwnedDiceArtifactsWithExplicitKey::from_owned_artifacts(dice_artifacts)?;
         let explicit_dice_chain = explicit_dice
             .explicit_key_dice_chain()
             .ok_or(anyhow!("Missing explicit dice chain, this is unusual"))?;
         let policy = sealing_policy(explicit_dice_chain).map_err(anyhow_err)?;

         // Start a new session with Secretkeeper!
         let mut session = SkSession::new(sk_service, &explicit_dice)?;
         let mut skp_secret = Zeroizing::new([0u8; SECRET_SIZE]);
         if super::is_strict_boot() {
             if super::is_new_instance() {
                 *skp_secret = rand::random();
                 store_secret(&mut session, id, skp_secret.clone(), policy)?;
             } else {
                 // Subsequent run of the pVM -> get the secret stored in Secretkeeper.
                 *skp_secret = get_secret(&mut session, id, Some(policy))?;
             }
         } else {
             // TODO(b/291213394): Non protected VM don't need to use Secretkeeper, remove this
             // once we have sufficient testing on protected VM.
             store_secret(&mut session, id, SKP_SECRET_NP_VM.into(), policy)?;
             *skp_secret = get_secret(&mut session, id, None)?;
         }
         Ok(Self::V2 {
             dice_artifacts: explicit_dice,
             skp_secret: ZVec::try_from(skp_secret.to_vec())?,
         })
     }

     pub fn dice_artifacts(&self) -> &dyn DiceArtifacts {
         match self {
             Self::V2 { dice_artifacts, .. } => dice_artifacts,
             Self::V1 { dice_artifacts } => dice_artifacts,
         }
     }

     fn get_vm_secret(&self, salt: &[u8], identifier: &[u8], key: &mut [u8]) -> Result<()> {
         match self {
             Self::V2 { dice_artifacts, skp_secret } => {
                 let mut hasher = sha::Sha256::new();
                 hasher.update(dice_artifacts.cdi_seal());
                 hasher.update(skp_secret);
                 hkdf(key, Md::sha256(), &hasher.finish(), salt, identifier)?
             }
             Self::V1 { dice_artifacts } => {
                 hkdf(key, Md::sha256(), dice_artifacts.cdi_seal(), salt, identifier)?
             }
         }
         Ok(())
     }

     /// Derive sealing key for payload with following identifier.
     pub fn derive_payload_sealing_key(&self, identifier: &[u8], key: &mut [u8]) -> Result<()> {
         self.get_vm_secret(SALT_PAYLOAD_SERVICE, identifier, key)
     }

     /// Derive encryptedstore key. This uses hardcoded random salt & fixed identifier.
     pub fn derive_encryptedstore_key(&self, key: &mut [u8]) -> Result<()> {
         self.get_vm_secret(SALT_ENCRYPTED_STORE, ENCRYPTEDSTORE_KEY_IDENTIFIER.as_bytes(), key)
     }
 }

 // Construct a sealing policy on the dice chain. VMs uses the following set of constraint for
 // protecting secrets against rollback of boot images.
 // 1. ExactMatch on AUTHORITY_HASH (Required ie, each DiceChainEntry must have it).
 // 2. ExactMatch on MODE (Required) - Secret should be inaccessible if any of the runtime
 //    configuration changes. For ex, the secrets stored with a boot stage being in Normal mode
 //    should be inaccessible when the same stage is booted in Debug mode.
 // 3. GreaterOrEqual on SECURITY_VERSION (Optional): The secrets will be accessible if version of
 //    any image is greater or equal to the set version. This is an optional field, certain
 //    components may chose to prevent booting of rollback images for ex, ABL is expected to provide
 //    rollback protection of pvmfw. Such components may chose to not put SECURITY_VERSION in the
 //    corresponding DiceChainEntry.
 //  4. For each Subcomponent on the last DiceChainEntry (which corresponds to VM payload, See
 //     microdroid_manager/src/vm_config.cddl):
 //       - GreaterOrEqual on SECURITY_VERSION (Required)
 //       - ExactMatch on AUTHORITY_HASH (Required).
 fn sealing_policy(dice: &[u8]) -> Result<Vec<u8>, String> {
     let constraint_spec = [
         ConstraintSpec::new(
             ConstraintType::ExactMatch,
             vec![AUTHORITY_HASH],
             MissingAction::Fail,
             CertIndex::All,
         ),
         ConstraintSpec::new(
             ConstraintType::ExactMatch,
             vec![MODE],
             MissingAction::Fail,
             CertIndex::All,
         ),
         ConstraintSpec::new(
             ConstraintType::GreaterOrEqual,
             vec![CONFIG_DESC, SECURITY_VERSION],
             MissingAction::Ignore,
             CertIndex::All,
         ),
         ConstraintSpec::new(
             ConstraintType::GreaterOrEqual,
             vec![
                 CONFIG_DESC,
                 SUBCOMPONENT_DESCRIPTORS,
                 WILDCARD_FULL_ARRAY,
                 SUBCOMPONENT_SECURITY_VERSION,
             ],
             MissingAction::Fail,
             CertIndex::FromEnd(PAYLOAD_INDEX_FROM_END),
         ),
         ConstraintSpec::new(
             ConstraintType::ExactMatch,
             vec![
                 CONFIG_DESC,
                 SUBCOMPONENT_DESCRIPTORS,
                 WILDCARD_FULL_ARRAY,
                 SUBCOMPONENT_AUTHORITY_HASH,
             ],
             MissingAction::Fail,
             CertIndex::FromEnd(PAYLOAD_INDEX_FROM_END),
         ),
     ];

     policy_for_dice_chain(dice, &constraint_spec)?
         .to_vec()
         .map_err(|e| format!("DicePolicy construction failed {e:?}"))
 }

 fn store_secret(
     session: &mut SkSession,
     id: [u8; ID_SIZE],
     secret: Zeroizing<[u8; SECRET_SIZE]>,
     sealing_policy: Vec<u8>,
 ) -> Result<()> {
     let store_request = StoreSecretRequest { id: Id(id), secret: Secret(*secret), sealing_policy };
     log::info!("Secretkeeper operation: {:?}", store_request);

     let store_request = store_request.serialize_to_packet().to_vec().map_err(anyhow_err)?;
     let store_response = session.secret_management_request(&store_request)?;
     let store_response = ResponsePacket::from_slice(&store_response).map_err(anyhow_err)?;
     let response_type = store_response.response_type().map_err(anyhow_err)?;
     ensure!(
         response_type == ResponseType::Success,
         "Secretkeeper store failed with error: {:?}",
         *SecretkeeperError::deserialize_from_packet(store_response).map_err(anyhow_err)?
     );
     Ok(())
 }

 fn get_secret(
     session: &mut SkSession,
     id: [u8; ID_SIZE],
     updated_sealing_policy: Option<Vec<u8>>,
 ) -> Result<[u8; SECRET_SIZE]> {
     let get_request = GetSecretRequest { id: Id(id), updated_sealing_policy };
     log::info!("Secretkeeper operation: {:?}", get_request);
     let get_request = get_request.serialize_to_packet().to_vec().map_err(anyhow_err)?;
     let get_response = session.secret_management_request(&get_request)?;
     let get_response = ResponsePacket::from_slice(&get_response).map_err(anyhow_err)?;
     let response_type = get_response.response_type().map_err(anyhow_err)?;
     ensure!(
         response_type == ResponseType::Success,
         "Secretkeeper get failed with error: {:?}",
         *SecretkeeperError::deserialize_from_packet(get_response).map_err(anyhow_err)?
     );
     let get_response =
         *GetSecretResponse::deserialize_from_packet(get_response).map_err(anyhow_err)?;
     Ok(get_response.secret.0)
 }

 #[inline]
 fn anyhow_err<E: core::fmt::Debug>(err: E) -> anyhow::Error {
     anyhow!("{:?}", err)
 }

 // Get the secretkeeper connection if supported. Host can be consulted whether the device supports
 // secretkeeper but that should be used with caution for protected VM.
 fn is_sk_supported(
     host: &Strong<dyn IVirtualMachineService>,
 ) -> Result<Option<Strong<dyn ISecretkeeper>>> {
     let sk = if cfg!(llpvm_changes) {
         if super::is_strict_boot() {
             // TODO: For protected VM check for Secretkeeper authentication data in device tree.
             None
         } else {
             // For non-protected VM, believe what host claims.
             host.getSecretkeeper()
                 // TODO rename this error!
                 .map_err(|e| {
                     super::MicrodroidError::FailedToConnectToVirtualizationService(e.to_string())
                 })?
         }
     } else {
         // LLPVM flag is disabled
         None
     };
     Ok(sk)
 }
	// Copyright 2023, 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.

	//! Class for encapsulating & managing represent VM secrets.

	use anyhow::{anyhow, ensure, Result};
	use android_system_virtualmachineservice::aidl::android::system::virtualmachineservice::IVirtualMachineService::IVirtualMachineService;
	use android_hardware_security_secretkeeper::aidl::android::hardware::security::secretkeeper::ISecretkeeper::ISecretkeeper;
	use secretkeeper_comm::data_types::request::Request;
	use binder::{Strong};
	use coset::CborSerializable;
	use dice_policy_builder::{CertIndex, ConstraintSpec, ConstraintType, policy_for_dice_chain, MissingAction, WILDCARD_FULL_ARRAY};
	use diced_open_dice::{DiceArtifacts, OwnedDiceArtifacts};
	use keystore2_crypto::ZVec;
	use openssl::hkdf::hkdf;
	use openssl::md::Md;
	use openssl::sha;
	use secretkeeper_client::dice::OwnedDiceArtifactsWithExplicitKey;
	use secretkeeper_client::SkSession;
	use secretkeeper_comm::data_types::{Id, ID_SIZE, Secret, SECRET_SIZE};
	use secretkeeper_comm::data_types::response::Response;
	use secretkeeper_comm::data_types::packet::{ResponsePacket, ResponseType};
	use secretkeeper_comm::data_types::request_response_impl::{
	StoreSecretRequest, GetSecretResponse, GetSecretRequest};
	use secretkeeper_comm::data_types::error::SecretkeeperError;
	use zeroize::Zeroizing;

	const ENCRYPTEDSTORE_KEY_IDENTIFIER: &str = "encryptedstore_key";
	const AUTHORITY_HASH: i64 = -4670549;
	const MODE: i64 = -4670551;
	const CONFIG_DESC: i64 = -4670548;
	const SECURITY_VERSION: i64 = -70005;
	const SUBCOMPONENT_DESCRIPTORS: i64 = -71002;
	const SUBCOMPONENT_SECURITY_VERSION: i64 = 2;
	const SUBCOMPONENT_AUTHORITY_HASH: i64 = 4;
	// Index of DiceChainEntry corresponding to Payload (relative to the end considering DICE Chain
	// as an array)
	const PAYLOAD_INDEX_FROM_END: usize = 0;

	// Generated using hexdump -vn32 -e'14/1 "0x%02X, " 1 "\n"' /dev/urandom
	const SALT_ENCRYPTED_STORE: &[u8] = &[
	0xFC, 0x1D, 0x35, 0x7B, 0x96, 0xF3, 0xEF, 0x17, 0x78, 0x7D, 0x70, 0xED, 0xEA, 0xFE, 0x1D, 0x6F,
	0xB3, 0xF9, 0x40, 0xCE, 0xDD, 0x99, 0x40, 0xAA, 0xA7, 0x0E, 0x92, 0x73, 0x90, 0x86, 0x4A, 0x75,
	];
	const SALT_PAYLOAD_SERVICE: &[u8] = &[
	0x8B, 0x0F, 0xF0, 0xD3, 0xB1, 0x69, 0x2B, 0x95, 0x84, 0x2C, 0x9E, 0x3C, 0x99, 0x56, 0x7A, 0x22,
	0x55, 0xF8, 0x08, 0x23, 0x81, 0x5F, 0xF5, 0x16, 0x20, 0x3E, 0xBE, 0xBA, 0xB7, 0xA8, 0x43, 0x92,
	];

	const SKP_SECRET_NP_VM: [u8; SECRET_SIZE] = [
	0xA9, 0x89, 0x97, 0xFE, 0xAE, 0x97, 0x55, 0x4B, 0x32, 0x35, 0xF0, 0xE8, 0x93, 0xDA, 0xEA, 0x24,
	0x06, 0xAC, 0x36, 0x8B, 0x3C, 0x95, 0x50, 0x16, 0x67, 0x71, 0x65, 0x26, 0xEB, 0xD0, 0xC3, 0x98,
	];

	pub enum VmSecret {
	// V2 secrets are derived from 2 independently secured secrets:
	// 1. Secretkeeper protected secrets (skp secret).
	// 2. Dice Sealing CDIs (Similar to V1).
	//
	// These are protected against rollback of boot images i.e. VM instance rebooted
	// with downgraded images will not have access to VM's secret.
	// V2 secrets require hardware support - Secretkeeper HAL, which (among other things)
	// is backed by tamper-evident storage, providing rollback protection to these secrets.
	V2 { dice_artifacts: OwnedDiceArtifactsWithExplicitKey, skp_secret: ZVec },
	// V1 secrets are not protected against rollback of boot images.
	// They are reliable only if rollback of images was prevented by verified boot ie,
	// each stage (including pvmfw/Microdroid/Microdroid Manager) prevents downgrade of next
	// stage. These are now legacy secrets & used only when Secretkeeper HAL is not supported
	// by device.
	V1 { dice_artifacts: OwnedDiceArtifacts },
	}

	impl VmSecret {
	pub fn new(
	id: [u8; ID_SIZE],
	dice_artifacts: OwnedDiceArtifacts,
	vm_service: &Strong<dyn IVirtualMachineService>,
	) -> Result<Self> {
	ensure!(dice_artifacts.bcc().is_some(), "Dice chain missing");

	let Some(sk_service) = is_sk_supported(vm_service)? else {
	// Use V1 secrets if Secretkeeper is not supported.
	return Ok(Self::V1 { dice_artifacts });
	};
	let explicit_dice =
	OwnedDiceArtifactsWithExplicitKey::from_owned_artifacts(dice_artifacts)?;
	let explicit_dice_chain = explicit_dice
	.explicit_key_dice_chain()
	.ok_or(anyhow!("Missing explicit dice chain, this is unusual"))?;
	let policy = sealing_policy(explicit_dice_chain).map_err(anyhow_err)?;

	// Start a new session with Secretkeeper!
	let mut session = SkSession::new(sk_service, &explicit_dice)?;
	let mut skp_secret = Zeroizing::new([0u8; SECRET_SIZE]);
	if super::is_strict_boot() {
	if super::is_new_instance() {
	*skp_secret = rand::random();
	store_secret(&mut session, id, skp_secret.clone(), policy)?;
	} else {
	// Subsequent run of the pVM -> get the secret stored in Secretkeeper.
	*skp_secret = get_secret(&mut session, id, Some(policy))?;
	}
	} else {
	// TODO(b/291213394): Non protected VM don't need to use Secretkeeper, remove this
	// once we have sufficient testing on protected VM.
	store_secret(&mut session, id, SKP_SECRET_NP_VM.into(), policy)?;
	*skp_secret = get_secret(&mut session, id, None)?;
	}
	Ok(Self::V2 {
	dice_artifacts: explicit_dice,
	skp_secret: ZVec::try_from(skp_secret.to_vec())?,
	})
	}

	pub fn dice_artifacts(&self) -> &dyn DiceArtifacts {
	match self {
	Self::V2 { dice_artifacts, .. } => dice_artifacts,
	Self::V1 { dice_artifacts } => dice_artifacts,
	}
	}

	fn get_vm_secret(&self, salt: &[u8], identifier: &[u8], key: &mut [u8]) -> Result<()> {
	match self {
	Self::V2 { dice_artifacts, skp_secret } => {
	let mut hasher = sha::Sha256::new();
	hasher.update(dice_artifacts.cdi_seal());
	hasher.update(skp_secret);
	hkdf(key, Md::sha256(), &hasher.finish(), salt, identifier)?
	}
	Self::V1 { dice_artifacts } => {
	hkdf(key, Md::sha256(), dice_artifacts.cdi_seal(), salt, identifier)?
	}
	}
	Ok(())
	}

	/// Derive sealing key for payload with following identifier.
	pub fn derive_payload_sealing_key(&self, identifier: &[u8], key: &mut [u8]) -> Result<()> {
	self.get_vm_secret(SALT_PAYLOAD_SERVICE, identifier, key)
	}

	/// Derive encryptedstore key. This uses hardcoded random salt & fixed identifier.
	pub fn derive_encryptedstore_key(&self, key: &mut [u8]) -> Result<()> {
	self.get_vm_secret(SALT_ENCRYPTED_STORE, ENCRYPTEDSTORE_KEY_IDENTIFIER.as_bytes(), key)
	}
	}

	// Construct a sealing policy on the dice chain. VMs uses the following set of constraint for
	// protecting secrets against rollback of boot images.
	// 1. ExactMatch on AUTHORITY_HASH (Required ie, each DiceChainEntry must have it).
	// 2. ExactMatch on MODE (Required) - Secret should be inaccessible if any of the runtime
	// configuration changes. For ex, the secrets stored with a boot stage being in Normal mode
	// should be inaccessible when the same stage is booted in Debug mode.
	// 3. GreaterOrEqual on SECURITY_VERSION (Optional): The secrets will be accessible if version of
	// any image is greater or equal to the set version. This is an optional field, certain
	// components may chose to prevent booting of rollback images for ex, ABL is expected to provide
	// rollback protection of pvmfw. Such components may chose to not put SECURITY_VERSION in the
	// corresponding DiceChainEntry.
	// 4. For each Subcomponent on the last DiceChainEntry (which corresponds to VM payload, See
	// microdroid_manager/src/vm_config.cddl):
	// - GreaterOrEqual on SECURITY_VERSION (Required)
	// - ExactMatch on AUTHORITY_HASH (Required).
	fn sealing_policy(dice: &[u8]) -> Result<Vec<u8>, String> {
	let constraint_spec = [
	ConstraintSpec::new(
	ConstraintType::ExactMatch,
	vec![AUTHORITY_HASH],
	MissingAction::Fail,
	CertIndex::All,
	),
	ConstraintSpec::new(
	ConstraintType::ExactMatch,
	vec![MODE],
	MissingAction::Fail,
	CertIndex::All,
	),
	ConstraintSpec::new(
	ConstraintType::GreaterOrEqual,
	vec![CONFIG_DESC, SECURITY_VERSION],
	MissingAction::Ignore,
	CertIndex::All,
	),
	ConstraintSpec::new(
	ConstraintType::GreaterOrEqual,
	vec![
	CONFIG_DESC,
	SUBCOMPONENT_DESCRIPTORS,
	WILDCARD_FULL_ARRAY,
	SUBCOMPONENT_SECURITY_VERSION,
	],
	MissingAction::Fail,
	CertIndex::FromEnd(PAYLOAD_INDEX_FROM_END),
	),
	ConstraintSpec::new(
	ConstraintType::ExactMatch,
	vec![
	CONFIG_DESC,
	SUBCOMPONENT_DESCRIPTORS,
	WILDCARD_FULL_ARRAY,
	SUBCOMPONENT_AUTHORITY_HASH,
	],
	MissingAction::Fail,
	CertIndex::FromEnd(PAYLOAD_INDEX_FROM_END),
	),
	];

	policy_for_dice_chain(dice, &constraint_spec)?
	.to_vec()
	.map_err(\|e\| format!("DicePolicy construction failed {e:?}"))
	}

	fn store_secret(
	session: &mut SkSession,
	id: [u8; ID_SIZE],
	secret: Zeroizing<[u8; SECRET_SIZE]>,
	sealing_policy: Vec<u8>,
	) -> Result<()> {
	let store_request = StoreSecretRequest { id: Id(id), secret: Secret(*secret), sealing_policy };
	log::info!("Secretkeeper operation: {:?}", store_request);

	let store_request = store_request.serialize_to_packet().to_vec().map_err(anyhow_err)?;
	let store_response = session.secret_management_request(&store_request)?;
	let store_response = ResponsePacket::from_slice(&store_response).map_err(anyhow_err)?;
	let response_type = store_response.response_type().map_err(anyhow_err)?;
	ensure!(
	response_type == ResponseType::Success,
	"Secretkeeper store failed with error: {:?}",
	*SecretkeeperError::deserialize_from_packet(store_response).map_err(anyhow_err)?
	);
	Ok(())
	}

	fn get_secret(
	session: &mut SkSession,
	id: [u8; ID_SIZE],
	updated_sealing_policy: Option<Vec<u8>>,
	) -> Result<[u8; SECRET_SIZE]> {
	let get_request = GetSecretRequest { id: Id(id), updated_sealing_policy };
	log::info!("Secretkeeper operation: {:?}", get_request);
	let get_request = get_request.serialize_to_packet().to_vec().map_err(anyhow_err)?;
	let get_response = session.secret_management_request(&get_request)?;
	let get_response = ResponsePacket::from_slice(&get_response).map_err(anyhow_err)?;
	let response_type = get_response.response_type().map_err(anyhow_err)?;
	ensure!(
	response_type == ResponseType::Success,
	"Secretkeeper get failed with error: {:?}",
	*SecretkeeperError::deserialize_from_packet(get_response).map_err(anyhow_err)?
	);
	let get_response =
	*GetSecretResponse::deserialize_from_packet(get_response).map_err(anyhow_err)?;
	Ok(get_response.secret.0)
	}

	#[inline]
	fn anyhow_err<E: core::fmt::Debug>(err: E) -> anyhow::Error {
	anyhow!("{:?}", err)
	}

	// Get the secretkeeper connection if supported. Host can be consulted whether the device supports
	// secretkeeper but that should be used with caution for protected VM.
	fn is_sk_supported(
	host: &Strong<dyn IVirtualMachineService>,
	) -> Result<Option<Strong<dyn ISecretkeeper>>> {
	let sk = if cfg!(llpvm_changes) {
	if super::is_strict_boot() {
	// TODO: For protected VM check for Secretkeeper authentication data in device tree.
	None
	} else {
	// For non-protected VM, believe what host claims.
	host.getSecretkeeper()
	// TODO rename this error!
	.map_err(\|e\| {
	super::MicrodroidError::FailedToConnectToVirtualizationService(e.to_string())
	})?
	}
	} else {
	// LLPVM flag is disabled
	None
	};
	Ok(sk)
	}