src/credentials/attestation_verifier/DeviceAttestationVerifier.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2021 Project CHIP Authors
  *
  *    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.
  */
 #pragma once

 #include <crypto/CHIPCryptoPAL.h>
 #include <lib/core/CHIPCallback.h>
 #include <lib/core/CHIPError.h>
 #include <lib/core/CHIPVendorIdentifiers.hpp>
 #include <lib/support/ScopedBuffer.h>
 #include <lib/support/Span.h>
 #include <stdlib.h>

 namespace chip {
 namespace Credentials {

 enum class AttestationVerificationResult : uint16_t
 {
     kSuccess = 0,

     kPaaUntrusted        = 100,
     kPaaNotFound         = 101,
     kPaaExpired          = 102,
     kPaaSignatureInvalid = 103,
     kPaaRevoked          = 104,
     kPaaFormatInvalid    = 105,
     kPaaArgumentInvalid  = 106,

     kPaiExpired           = 200,
     kPaiSignatureInvalid  = 201,
     kPaiRevoked           = 202,
     kPaiFormatInvalid     = 203,
     kPaiArgumentInvalid   = 204,
     kPaiVendorIdMismatch  = 205,
     kPaiAuthorityNotFound = 206,
     kPaiMissing           = 207,

     kDacExpired           = 300,
     kDacSignatureInvalid  = 301,
     kDacRevoked           = 302,
     kDacFormatInvalid     = 303,
     kDacArgumentInvalid   = 304,
     kDacVendorIdMismatch  = 305,
     kDacProductIdMismatch = 306,
     kDacAuthorityNotFound = 307,

     kFirmwareInformationMismatch = 400,
     kFirmwareInformationMissing  = 401,

     kAttestationSignatureInvalid       = 500,
     kAttestationElementsMalformed      = 501,
     kAttestationNonceMismatch          = 502,
     kAttestationSignatureInvalidFormat = 503,

     kCertificationDeclarationNoKeyId            = 600,
     kCertificationDeclarationNoCertificateFound = 601,
     kCertificationDeclarationInvalidSignature   = 602,
     kCertificationDeclarationInvalidFormat      = 603,
     kCertificationDeclarationInvalidVendorId    = 604,
     kCertificationDeclarationInvalidProductId   = 605,
     kCertificationDeclarationInvalidPAA         = 606,

     kNoMemory = 700,

     kInvalidArgument = 800,

     kInternalError = 900,

     kNotImplemented = 0xFFFFU,

     // TODO: Add more attestation verification errors
 };

 enum CertificateType : uint8_t
 {
     kUnknown = 0,
     kDAC     = 1,
     kPAI     = 2,
 };

 struct DeviceInfoForAttestation
 {
     // Vendor ID reported by device in Basic Information cluster
     uint16_t vendorId = VendorId::NotSpecified;
     // Product ID reported by device in Basic Information cluster
     uint16_t productId = 0;
     // Vendor ID from DAC
     uint16_t dacVendorId = VendorId::NotSpecified;
     // Product ID from DAC
     uint16_t dacProductId = 0;
     // Vendor ID from PAI cert
     uint16_t paiVendorId = VendorId::NotSpecified;
     // Product ID from PAI cert (0 if absent)
     uint16_t paiProductId = 0;
     // Vendor ID from PAA cert
     uint16_t paaVendorId = VendorId::NotSpecified;
     // Subject Key Identifier (SKID) from PAA cert
     uint8_t paaSKID[Crypto::kSubjectKeyIdentifierLength] = { 0 };
 };

 /**
  * @brief Helper utility to model a basic trust store usable for device attestation verifiers.
  *
  * API is synchronous. Real commissioner implementations may entirely
  * hide Product Attestation Authority cert lookup behind the DeviceAttestationVerifier and
  * never use this interface at all. It is provided as a utility to help build DeviceAttestationVerifier
  * implementations suitable for testing or examples.
  */
 class AttestationTrustStore
 {
 public:
     AttestationTrustStore()          = default;
     virtual ~AttestationTrustStore() = default;

     // Not copyable
     AttestationTrustStore(const AttestationTrustStore &) = delete;
     AttestationTrustStore & operator=(const AttestationTrustStore &) = delete;

     /**
      * @brief Look-up a PAA cert by SKID
      *
      * The implementations of this interface must have access to a set of PAAs to trust.
      *
      * Interface is synchronous, and therefore this should not be used unless to expose a PAA
      * store that is both fully local and quick to access.
      *
      * @param[in] skid Buffer containing the subject key identifier (SKID) of the PAA to look-up
      * @param[in,out] outPaaDerBuffer Buffer to receive the contents of the PAA root cert, if found.
      *                                  Size will be updated to match actual size.
      *
      * @returns CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if `skid` or `outPaaDerBuffer` arguments
      *          are not usable, CHIP_BUFFER_TOO_SMALL if certificate doesn't fit in `outPaaDerBuffer`
      *          span, CHIP_ERROR_CA_CERT_NOT_FOUND if no PAA found that matches `skid.
      *
      */
     virtual CHIP_ERROR GetProductAttestationAuthorityCert(const ByteSpan & skid, MutableByteSpan & outPaaDerBuffer) const = 0;
 };

 /**
  * @brief Helper utility to model obtaining verifying keys by Key ID
  *
  * API is synchronous. Real commissioner implementations may entirely
  * hide key lookup behind the DeviceAttestationVerifier and never use this interface at all.
  * It is provided as a utility to help build DeviceAttestationVerifier
  * implementations suitable for testing or examples.
  */
 class WellKnownKeysTrustStore
 {
 public:
     WellKnownKeysTrustStore()          = default;
     virtual ~WellKnownKeysTrustStore() = default;

     // Not copyable
     WellKnownKeysTrustStore(const WellKnownKeysTrustStore &) = delete;
     WellKnownKeysTrustStore & operator=(const WellKnownKeysTrustStore &) = delete;

     /**
      * @brief Add a trusted key directly
      *
      * @param[in] kid - Key ID to use. Usually 20 bytes long, max 32 bytes.
      * @param[in] pubKey - Verifying public key to attach to the key ID.
      *
      * @return CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if `kid` or `pubKey` arguments
      *          are not usable. CHIP_ERROR_NO_MEMORY if the trust store is full.
      */
     virtual CHIP_ERROR AddTrustedKey(const ByteSpan & kid, const Crypto::P256PublicKey & pubKey) = 0;

     /**
      * @brief Add a trusted key via a public certificate.
      *
      * The subject public key of the certificate will be used.
      * The subject key ID extensions of the certificate will be the `kid`.
      *
      * Verification of trust chaining is at the discretion of the implementation.
      *
      * @param[in] derCertBytes - Certificate containing the X.509 DER certificate with the key.
      *
      * @return CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if derCertBytes is improperly
      *         formatted or not trusted. CHIP_ERROR_NO_MEMORY if the trust store is full.
      */
     virtual CHIP_ERROR AddTrustedKey(const ByteSpan & derCertBytes) = 0;

     /**
      * @brief Look-up a verifying key by Key ID
      *
      * Interface is synchronous.
      *
      * @param[in] kid Buffer containing the key identifier (KID) of the verifying key to look-up. Usually
      *                a SHA-1-sized buffer (20 bytes).
      * @param[out] outPubKey Reference to where the verifying key found will be stored on CHIP_NO_ERROR
      *
      * @returns CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if `kid` or `pubKey` arguments
      *          are not usable, CHIP_ERROR_KEY_NOT_FOUND if no key is found that matches `kid`.
      */
     virtual CHIP_ERROR LookupVerifyingKey(const ByteSpan & kid, Crypto::P256PublicKey & outPubKey) const = 0;

     /**
      * @brief Returns true if `kid` identifies a known test key.
      *
      * @param kid - Key ID to use. Usually 20 bytes long, max 32 bytes.
      * @return true if it's a test/development-only signing key identifier, false otherwise
      */
     virtual bool IsCdTestKey(const ByteSpan & kid) const = 0;
 };

 /**
  * @brief Basic AttestationTrustStore that holds all data within caller-owned memory.
  *
  * This is useful to wrap a fixed constant array of certificates into a trust store
  * implementation.
  */

 class ArrayAttestationTrustStore : public AttestationTrustStore
 {
 public:
     ArrayAttestationTrustStore(const ByteSpan * derCerts, size_t numCerts) : mDerCerts(derCerts), mNumCerts(numCerts) {}

     CHIP_ERROR GetProductAttestationAuthorityCert(const ByteSpan & skid, MutableByteSpan & outPaaDerBuffer) const override
     {
         VerifyOrReturnError(!skid.empty() && (skid.data() != nullptr), CHIP_ERROR_INVALID_ARGUMENT);
         VerifyOrReturnError(skid.size() == Crypto::kSubjectKeyIdentifierLength, CHIP_ERROR_INVALID_ARGUMENT);

         size_t paaIdx;
         ByteSpan candidate;

         for (paaIdx = 0; paaIdx < mNumCerts; ++paaIdx)
         {
             uint8_t skidBuf[Crypto::kSubjectKeyIdentifierLength] = { 0 };
             candidate                                            = mDerCerts[paaIdx];
             MutableByteSpan candidateSkidSpan{ skidBuf };
             VerifyOrReturnError(CHIP_NO_ERROR == Crypto::ExtractSKIDFromX509Cert(candidate, candidateSkidSpan),
                                 CHIP_ERROR_INTERNAL);

             if (skid.data_equal(candidateSkidSpan))
             {
                 // Found a match
                 return CopySpanToMutableSpan(candidate, outPaaDerBuffer);
             }
         }

         return CHIP_ERROR_CA_CERT_NOT_FOUND;
     }

 protected:
     const ByteSpan * mDerCerts;
     const size_t mNumCerts;
 };

 class DeviceAttestationVerifier
 {
 public:
     DeviceAttestationVerifier()          = default;
     virtual ~DeviceAttestationVerifier() = default;

     // Not copyable
     DeviceAttestationVerifier(const DeviceAttestationVerifier &) = delete;
     DeviceAttestationVerifier & operator=(const DeviceAttestationVerifier &) = delete;

     struct AttestationInfo
     {
         AttestationInfo(const ByteSpan & attestationElements, const ByteSpan & attestationChallenge,
                         const ByteSpan & attestationSignature, const ByteSpan & paiDer, const ByteSpan & dacDer,
                         const ByteSpan & attestationNonce, VendorId remoteVendorId, uint16_t remoteProductId) :
             attestationElementsBuffer(attestationElements),
             attestationChallengeBuffer(attestationChallenge), attestationSignatureBuffer(attestationSignature),
             paiDerBuffer(paiDer), dacDerBuffer(dacDer), attestationNonceBuffer(attestationNonce), vendorId(remoteVendorId),
             productId(remoteProductId)
         {}
         const ByteSpan
             attestationElementsBuffer; // Buffer containing attestation elements portion of Attestation Response (raw TLV)
         const ByteSpan attestationChallengeBuffer; // Buffer containing the attestation challenge from the secure session
         const ByteSpan attestationSignatureBuffer; // Buffer the signature portion of Attestation Response
         const ByteSpan paiDerBuffer;               // Buffer containing the PAI certificate from device in DER format.
         const ByteSpan dacDerBuffer;               // Buffer containing the DAC certificate from device in DER format.
         const ByteSpan attestationNonceBuffer;     // Buffer containing attestation nonce.
         VendorId vendorId;
         uint16_t productId;
     };

     // Copies the bytes passed to it, and holds the PAI, DAC, and CD for additional verification step
     class AttestationDeviceInfo
     {
     public:
         AttestationDeviceInfo(const AttestationInfo & attestationInfo);
         AttestationDeviceInfo(const ByteSpan & attestationElementsBuffer, const ByteSpan paiDerBuffer, const ByteSpan dacDerBuffer);

         ~AttestationDeviceInfo() = default;

         // Returns buffer containing the PAI certificate from device in DER format.
         const ByteSpan paiDerBuffer() const { return ByteSpan(mPaiDerBuffer.Get(), mPaiDerBuffer.AllocatedSize()); }

         // Returns buffer containing the DAC certificate from device in DER format.
         const ByteSpan dacDerBuffer() const { return ByteSpan(mDacDerBuffer.Get(), mDacDerBuffer.AllocatedSize()); }

         // Returns optional buffer containing the certificate declaration from device.
         const Optional<ByteSpan> cdBuffer() const
         {
             if (mCdBuffer.Get())
             {
                 return MakeOptional(ByteSpan(mDacDerBuffer.Get(), mDacDerBuffer.AllocatedSize()));
             }
             else
             {
                 return Optional<ByteSpan>();
             }
         }

     private:
         Platform::ScopedMemoryBufferWithSize<uint8_t> mPaiDerBuffer;
         Platform::ScopedMemoryBufferWithSize<uint8_t> mDacDerBuffer;
         Platform::ScopedMemoryBufferWithSize<uint8_t> mCdBuffer;
     };

     typedef void (*OnAttestationInformationVerification)(void * context, const AttestationInfo & info,
                                                          AttestationVerificationResult result);

     /**
      * @brief Verify an attestation information payload against a DAC/PAI chain.
      *
      * @param[in] info All of the information required to verify the attestation.
      * @param[in] onCompletion Callback handler to provide Attestation Information Verification result to the caller of
      *                         VerifyAttestationInformation()
      */
     virtual void VerifyAttestationInformation(const AttestationInfo & info,
                                               Callback::Callback<OnAttestationInformationVerification> * onCompletion) = 0;

     /**
      * @brief Verify a CMS Signed Data signature against the CSA certificate of Subject Key Identifier that matches
      *        the subjectKeyIdentifier field of cmsEnvelopeBuffer.
      *
      * @param[in]  cmsEnvelopeBuffer A ByteSpan with a CMS signed message.
      * @param[out] certDeclBuffer    A ByteSpan to hold the CD content extracted from the CMS signed message.
      *
      * @returns AttestationVerificationResult::kSuccess on success or another specific
      *          value from AttestationVerificationResult enum on failure.
      */
     virtual AttestationVerificationResult ValidateCertificationDeclarationSignature(const ByteSpan & cmsEnvelopeBuffer,
                                                                                     ByteSpan & certDeclBuffer) = 0;

     /**
      * @brief Verify a CMS Signed Data Payload against the Basic Information Cluster and DAC/PAI's Vendor and Product IDs
      *
      * @param[in] certDeclBuffer   A ByteSpan with the Certification Declaration content.
      * @param[in] firmwareInfo     A ByteSpan with the Firmware Information content.
      * @param[in] deviceInfo       The device information
      *
      * @returns AttestationVerificationResult::kSuccess on success or another specific
      *          value from AttestationVerificationResult enum on failure.
      */
     virtual AttestationVerificationResult ValidateCertificateDeclarationPayload(const ByteSpan & certDeclBuffer,
                                                                                 const ByteSpan & firmwareInfo,
                                                                                 const DeviceInfoForAttestation & deviceInfo) = 0;

     // TODO: Validate Firmware Information

     /**
      * @brief Verify an operational certificate signing request payload against the DAC's public key.
      *
      * @param[in]  nocsrElementsBuffer Buffer containing CSR elements as per specifications section 11.22.5.6. NOCSR Elements.
      * @param[in]  attestationChallengeBuffer Buffer containing the attestation challenge from the secure session
      * @param[in]  attestationSignatureBuffer Buffer containing the signature portion of CSR Response
      * @param[in]  dacPublicKey Public Key from the DAC's certificate received from device.
      * @param[in]  csrNonce Buffer containing CSR nonce.
      */
     virtual CHIP_ERROR VerifyNodeOperationalCSRInformation(const ByteSpan & nocsrElementsBuffer,
                                                            const ByteSpan & attestationChallengeBuffer,
                                                            const ByteSpan & attestationSignatureBuffer,
                                                            const Crypto::P256PublicKey & dacPublicKey,
                                                            const ByteSpan & csrNonce) = 0;

     /**
      * @brief Get the trust store used for the attestation verifier.
      *
      * Returns nullptr if not supported. Be careful not to hold-on to the trust store
      * for too long. It is only expected to have same lifetime as the DeviceAttestationVerifier.
      *
      * @return a pointer to the trust store or nullptr if none is directly accessible.
      */
     virtual WellKnownKeysTrustStore * GetCertificationDeclarationTrustStore() { return nullptr; }

     void EnableCdTestKeySupport(bool enabled) { mEnableCdTestKeySupport = enabled; }
     bool IsCdTestKeySupported() const { return mEnableCdTestKeySupport; }

 protected:
     CHIP_ERROR ValidateAttestationSignature(const Crypto::P256PublicKey & pubkey, const ByteSpan & attestationElements,
                                             const ByteSpan & attestationChallenge, const Crypto::P256ECDSASignature & signature);

     // Default to support the "development" test key for legacy purposes (since the DefaultDACVerifier)
     // always supported development keys.
     bool mEnableCdTestKeySupport = true;
 };

 /**
  * Instance getter for the global DeviceAttestationVerifier.
  *
  * Callers have to externally synchronize usage of this function.
  *
  * @return The global device attestation verifier. Assume never null.
  */
 DeviceAttestationVerifier * GetDeviceAttestationVerifier();

 /**
  * Instance setter for the global DeviceAttestationVerifier.
  *
  * Callers have to externally synchronize usage of this function.
  *
  * If the `verifier` is nullptr, no change is done.
  *
  * @param[in] verifier the DeviceAttestationVerifier to start returning with the getter
  */
 void SetDeviceAttestationVerifier(DeviceAttestationVerifier * verifier);

 } // namespace Credentials
 } // namespace chip
	/*
	*
	* Copyright (c) 2021 Project CHIP Authors
	*
	* 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.
	*/
	#pragma once

	#include <crypto/CHIPCryptoPAL.h>
	#include <lib/core/CHIPCallback.h>
	#include <lib/core/CHIPError.h>
	#include <lib/core/CHIPVendorIdentifiers.hpp>
	#include <lib/support/ScopedBuffer.h>
	#include <lib/support/Span.h>
	#include <stdlib.h>

	namespace chip {
	namespace Credentials {

	enum class AttestationVerificationResult : uint16_t
	{
	kSuccess = 0,

	kPaaUntrusted = 100,
	kPaaNotFound = 101,
	kPaaExpired = 102,
	kPaaSignatureInvalid = 103,
	kPaaRevoked = 104,
	kPaaFormatInvalid = 105,
	kPaaArgumentInvalid = 106,

	kPaiExpired = 200,
	kPaiSignatureInvalid = 201,
	kPaiRevoked = 202,
	kPaiFormatInvalid = 203,
	kPaiArgumentInvalid = 204,
	kPaiVendorIdMismatch = 205,
	kPaiAuthorityNotFound = 206,
	kPaiMissing = 207,

	kDacExpired = 300,
	kDacSignatureInvalid = 301,
	kDacRevoked = 302,
	kDacFormatInvalid = 303,
	kDacArgumentInvalid = 304,
	kDacVendorIdMismatch = 305,
	kDacProductIdMismatch = 306,
	kDacAuthorityNotFound = 307,

	kFirmwareInformationMismatch = 400,
	kFirmwareInformationMissing = 401,

	kAttestationSignatureInvalid = 500,
	kAttestationElementsMalformed = 501,
	kAttestationNonceMismatch = 502,
	kAttestationSignatureInvalidFormat = 503,

	kCertificationDeclarationNoKeyId = 600,
	kCertificationDeclarationNoCertificateFound = 601,
	kCertificationDeclarationInvalidSignature = 602,
	kCertificationDeclarationInvalidFormat = 603,
	kCertificationDeclarationInvalidVendorId = 604,
	kCertificationDeclarationInvalidProductId = 605,
	kCertificationDeclarationInvalidPAA = 606,

	kNoMemory = 700,

	kInvalidArgument = 800,

	kInternalError = 900,

	kNotImplemented = 0xFFFFU,

	// TODO: Add more attestation verification errors
	};

	enum CertificateType : uint8_t
	{
	kUnknown = 0,
	kDAC = 1,
	kPAI = 2,
	};

	struct DeviceInfoForAttestation
	{
	// Vendor ID reported by device in Basic Information cluster
	uint16_t vendorId = VendorId::NotSpecified;
	// Product ID reported by device in Basic Information cluster
	uint16_t productId = 0;
	// Vendor ID from DAC
	uint16_t dacVendorId = VendorId::NotSpecified;
	// Product ID from DAC
	uint16_t dacProductId = 0;
	// Vendor ID from PAI cert
	uint16_t paiVendorId = VendorId::NotSpecified;
	// Product ID from PAI cert (0 if absent)
	uint16_t paiProductId = 0;
	// Vendor ID from PAA cert
	uint16_t paaVendorId = VendorId::NotSpecified;
	// Subject Key Identifier (SKID) from PAA cert
	uint8_t paaSKID[Crypto::kSubjectKeyIdentifierLength] = { 0 };
	};

	/**
	* @brief Helper utility to model a basic trust store usable for device attestation verifiers.
	*
	* API is synchronous. Real commissioner implementations may entirely
	* hide Product Attestation Authority cert lookup behind the DeviceAttestationVerifier and
	* never use this interface at all. It is provided as a utility to help build DeviceAttestationVerifier
	* implementations suitable for testing or examples.
	*/
	class AttestationTrustStore
	{
	public:
	AttestationTrustStore() = default;
	virtual ~AttestationTrustStore() = default;

	// Not copyable
	AttestationTrustStore(const AttestationTrustStore &) = delete;
	AttestationTrustStore & operator=(const AttestationTrustStore &) = delete;

	/**
	* @brief Look-up a PAA cert by SKID
	*
	* The implementations of this interface must have access to a set of PAAs to trust.
	*
	* Interface is synchronous, and therefore this should not be used unless to expose a PAA
	* store that is both fully local and quick to access.
	*
	* @param[in] skid Buffer containing the subject key identifier (SKID) of the PAA to look-up
	* @param[in,out] outPaaDerBuffer Buffer to receive the contents of the PAA root cert, if found.
	* Size will be updated to match actual size.
	*
	* @returns CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if `skid` or `outPaaDerBuffer` arguments
	* are not usable, CHIP_BUFFER_TOO_SMALL if certificate doesn't fit in `outPaaDerBuffer`
	* span, CHIP_ERROR_CA_CERT_NOT_FOUND if no PAA found that matches `skid.
	*
	*/
	virtual CHIP_ERROR GetProductAttestationAuthorityCert(const ByteSpan & skid, MutableByteSpan & outPaaDerBuffer) const = 0;
	};

	/**
	* @brief Helper utility to model obtaining verifying keys by Key ID
	*
	* API is synchronous. Real commissioner implementations may entirely
	* hide key lookup behind the DeviceAttestationVerifier and never use this interface at all.
	* It is provided as a utility to help build DeviceAttestationVerifier
	* implementations suitable for testing or examples.
	*/
	class WellKnownKeysTrustStore
	{
	public:
	WellKnownKeysTrustStore() = default;
	virtual ~WellKnownKeysTrustStore() = default;

	// Not copyable
	WellKnownKeysTrustStore(const WellKnownKeysTrustStore &) = delete;
	WellKnownKeysTrustStore & operator=(const WellKnownKeysTrustStore &) = delete;

	/**
	* @brief Add a trusted key directly
	*
	* @param[in] kid - Key ID to use. Usually 20 bytes long, max 32 bytes.
	* @param[in] pubKey - Verifying public key to attach to the key ID.
	*
	* @return CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if `kid` or `pubKey` arguments
	* are not usable. CHIP_ERROR_NO_MEMORY if the trust store is full.
	*/
	virtual CHIP_ERROR AddTrustedKey(const ByteSpan & kid, const Crypto::P256PublicKey & pubKey) = 0;

	/**
	* @brief Add a trusted key via a public certificate.
	*
	* The subject public key of the certificate will be used.
	* The subject key ID extensions of the certificate will be the `kid`.
	*
	* Verification of trust chaining is at the discretion of the implementation.
	*
	* @param[in] derCertBytes - Certificate containing the X.509 DER certificate with the key.
	*
	* @return CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if derCertBytes is improperly
	* formatted or not trusted. CHIP_ERROR_NO_MEMORY if the trust store is full.
	*/
	virtual CHIP_ERROR AddTrustedKey(const ByteSpan & derCertBytes) = 0;

	/**
	* @brief Look-up a verifying key by Key ID
	*
	* Interface is synchronous.
	*
	* @param[in] kid Buffer containing the key identifier (KID) of the verifying key to look-up. Usually
	* a SHA-1-sized buffer (20 bytes).
	* @param[out] outPubKey Reference to where the verifying key found will be stored on CHIP_NO_ERROR
	*
	* @returns CHIP_NO_ERROR on success, CHIP_INVALID_ARGUMENT if `kid` or `pubKey` arguments
	* are not usable, CHIP_ERROR_KEY_NOT_FOUND if no key is found that matches `kid`.
	*/
	virtual CHIP_ERROR LookupVerifyingKey(const ByteSpan & kid, Crypto::P256PublicKey & outPubKey) const = 0;

	/**
	* @brief Returns true if `kid` identifies a known test key.
	*
	* @param kid - Key ID to use. Usually 20 bytes long, max 32 bytes.
	* @return true if it's a test/development-only signing key identifier, false otherwise
	*/
	virtual bool IsCdTestKey(const ByteSpan & kid) const = 0;
	};

	/**
	* @brief Basic AttestationTrustStore that holds all data within caller-owned memory.
	*
	* This is useful to wrap a fixed constant array of certificates into a trust store
	* implementation.
	*/

	class ArrayAttestationTrustStore : public AttestationTrustStore
	{
	public:
	ArrayAttestationTrustStore(const ByteSpan * derCerts, size_t numCerts) : mDerCerts(derCerts), mNumCerts(numCerts) {}

	CHIP_ERROR GetProductAttestationAuthorityCert(const ByteSpan & skid, MutableByteSpan & outPaaDerBuffer) const override
	{
	VerifyOrReturnError(!skid.empty() && (skid.data() != nullptr), CHIP_ERROR_INVALID_ARGUMENT);
	VerifyOrReturnError(skid.size() == Crypto::kSubjectKeyIdentifierLength, CHIP_ERROR_INVALID_ARGUMENT);

	size_t paaIdx;
	ByteSpan candidate;

	for (paaIdx = 0; paaIdx < mNumCerts; ++paaIdx)
	{
	uint8_t skidBuf[Crypto::kSubjectKeyIdentifierLength] = { 0 };
	candidate = mDerCerts[paaIdx];
	MutableByteSpan candidateSkidSpan{ skidBuf };
	VerifyOrReturnError(CHIP_NO_ERROR == Crypto::ExtractSKIDFromX509Cert(candidate, candidateSkidSpan),
	CHIP_ERROR_INTERNAL);

	if (skid.data_equal(candidateSkidSpan))
	{
	// Found a match
	return CopySpanToMutableSpan(candidate, outPaaDerBuffer);
	}
	}

	return CHIP_ERROR_CA_CERT_NOT_FOUND;
	}

	protected:
	const ByteSpan * mDerCerts;
	const size_t mNumCerts;
	};

	class DeviceAttestationVerifier
	{
	public:
	DeviceAttestationVerifier() = default;
	virtual ~DeviceAttestationVerifier() = default;

	// Not copyable
	DeviceAttestationVerifier(const DeviceAttestationVerifier &) = delete;
	DeviceAttestationVerifier & operator=(const DeviceAttestationVerifier &) = delete;

	struct AttestationInfo
	{
	AttestationInfo(const ByteSpan & attestationElements, const ByteSpan & attestationChallenge,
	const ByteSpan & attestationSignature, const ByteSpan & paiDer, const ByteSpan & dacDer,
	const ByteSpan & attestationNonce, VendorId remoteVendorId, uint16_t remoteProductId) :
	attestationElementsBuffer(attestationElements),
	attestationChallengeBuffer(attestationChallenge), attestationSignatureBuffer(attestationSignature),
	paiDerBuffer(paiDer), dacDerBuffer(dacDer), attestationNonceBuffer(attestationNonce), vendorId(remoteVendorId),
	productId(remoteProductId)
	{}
	const ByteSpan
	attestationElementsBuffer; // Buffer containing attestation elements portion of Attestation Response (raw TLV)
	const ByteSpan attestationChallengeBuffer; // Buffer containing the attestation challenge from the secure session
	const ByteSpan attestationSignatureBuffer; // Buffer the signature portion of Attestation Response
	const ByteSpan paiDerBuffer; // Buffer containing the PAI certificate from device in DER format.
	const ByteSpan dacDerBuffer; // Buffer containing the DAC certificate from device in DER format.
	const ByteSpan attestationNonceBuffer; // Buffer containing attestation nonce.
	VendorId vendorId;
	uint16_t productId;
	};

	// Copies the bytes passed to it, and holds the PAI, DAC, and CD for additional verification step
	class AttestationDeviceInfo
	{
	public:
	AttestationDeviceInfo(const AttestationInfo & attestationInfo);
	AttestationDeviceInfo(const ByteSpan & attestationElementsBuffer, const ByteSpan paiDerBuffer, const ByteSpan dacDerBuffer);

	~AttestationDeviceInfo() = default;

	// Returns buffer containing the PAI certificate from device in DER format.
	const ByteSpan paiDerBuffer() const { return ByteSpan(mPaiDerBuffer.Get(), mPaiDerBuffer.AllocatedSize()); }

	// Returns buffer containing the DAC certificate from device in DER format.
	const ByteSpan dacDerBuffer() const { return ByteSpan(mDacDerBuffer.Get(), mDacDerBuffer.AllocatedSize()); }

	// Returns optional buffer containing the certificate declaration from device.
	const Optional<ByteSpan> cdBuffer() const
	{
	if (mCdBuffer.Get())
	{
	return MakeOptional(ByteSpan(mDacDerBuffer.Get(), mDacDerBuffer.AllocatedSize()));
	}
	else
	{
	return Optional<ByteSpan>();
	}
	}

	private:
	Platform::ScopedMemoryBufferWithSize<uint8_t> mPaiDerBuffer;
	Platform::ScopedMemoryBufferWithSize<uint8_t> mDacDerBuffer;
	Platform::ScopedMemoryBufferWithSize<uint8_t> mCdBuffer;
	};

	typedef void (OnAttestationInformationVerification)(void context, const AttestationInfo & info,
	AttestationVerificationResult result);

	/**
	* @brief Verify an attestation information payload against a DAC/PAI chain.
	*
	* @param[in] info All of the information required to verify the attestation.
	* @param[in] onCompletion Callback handler to provide Attestation Information Verification result to the caller of
	* VerifyAttestationInformation()
	*/
	virtual void VerifyAttestationInformation(const AttestationInfo & info,
	Callback::Callback<OnAttestationInformationVerification> * onCompletion) = 0;

	/**
	* @brief Verify a CMS Signed Data signature against the CSA certificate of Subject Key Identifier that matches
	* the subjectKeyIdentifier field of cmsEnvelopeBuffer.
	*
	* @param[in] cmsEnvelopeBuffer A ByteSpan with a CMS signed message.
	* @param[out] certDeclBuffer A ByteSpan to hold the CD content extracted from the CMS signed message.
	*
	* @returns AttestationVerificationResult::kSuccess on success or another specific
	* value from AttestationVerificationResult enum on failure.
	*/
	virtual AttestationVerificationResult ValidateCertificationDeclarationSignature(const ByteSpan & cmsEnvelopeBuffer,
	ByteSpan & certDeclBuffer) = 0;

	/**
	* @brief Verify a CMS Signed Data Payload against the Basic Information Cluster and DAC/PAI's Vendor and Product IDs
	*
	* @param[in] certDeclBuffer A ByteSpan with the Certification Declaration content.
	* @param[in] firmwareInfo A ByteSpan with the Firmware Information content.
	* @param[in] deviceInfo The device information
	*
	* @returns AttestationVerificationResult::kSuccess on success or another specific
	* value from AttestationVerificationResult enum on failure.
	*/
	virtual AttestationVerificationResult ValidateCertificateDeclarationPayload(const ByteSpan & certDeclBuffer,
	const ByteSpan & firmwareInfo,
	const DeviceInfoForAttestation & deviceInfo) = 0;

	// TODO: Validate Firmware Information

	/**
	* @brief Verify an operational certificate signing request payload against the DAC's public key.
	*
	* @param[in] nocsrElementsBuffer Buffer containing CSR elements as per specifications section 11.22.5.6. NOCSR Elements.
	* @param[in] attestationChallengeBuffer Buffer containing the attestation challenge from the secure session
	* @param[in] attestationSignatureBuffer Buffer containing the signature portion of CSR Response
	* @param[in] dacPublicKey Public Key from the DAC's certificate received from device.
	* @param[in] csrNonce Buffer containing CSR nonce.
	*/
	virtual CHIP_ERROR VerifyNodeOperationalCSRInformation(const ByteSpan & nocsrElementsBuffer,
	const ByteSpan & attestationChallengeBuffer,
	const ByteSpan & attestationSignatureBuffer,
	const Crypto::P256PublicKey & dacPublicKey,
	const ByteSpan & csrNonce) = 0;

	/**
	* @brief Get the trust store used for the attestation verifier.
	*
	* Returns nullptr if not supported. Be careful not to hold-on to the trust store
	* for too long. It is only expected to have same lifetime as the DeviceAttestationVerifier.
	*
	* @return a pointer to the trust store or nullptr if none is directly accessible.
	*/
	virtual WellKnownKeysTrustStore * GetCertificationDeclarationTrustStore() { return nullptr; }

	void EnableCdTestKeySupport(bool enabled) { mEnableCdTestKeySupport = enabled; }
	bool IsCdTestKeySupported() const { return mEnableCdTestKeySupport; }

	protected:
	CHIP_ERROR ValidateAttestationSignature(const Crypto::P256PublicKey & pubkey, const ByteSpan & attestationElements,
	const ByteSpan & attestationChallenge, const Crypto::P256ECDSASignature & signature);

	// Default to support the "development" test key for legacy purposes (since the DefaultDACVerifier)
	// always supported development keys.
	bool mEnableCdTestKeySupport = true;
	};

	/**
	* Instance getter for the global DeviceAttestationVerifier.
	*
	* Callers have to externally synchronize usage of this function.
	*
	* @return The global device attestation verifier. Assume never null.
	*/
	DeviceAttestationVerifier * GetDeviceAttestationVerifier();

	/**
	* Instance setter for the global DeviceAttestationVerifier.
	*
	* Callers have to externally synchronize usage of this function.
	*
	* If the `verifier` is nullptr, no change is done.
	*
	* @param[in] verifier the DeviceAttestationVerifier to start returning with the getter
	*/
	void SetDeviceAttestationVerifier(DeviceAttestationVerifier * verifier);

	} // namespace Credentials
	} // namespace chip