/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ // Package SNP provides types shared by SNP-based attestation implementations. // It ensures all issuers provide the same types to the verify command. package snp import ( "bytes" "crypto/x509" "encoding/pem" "fmt" "github.com/edgelesssys/constellation/v2/internal/attestation" "github.com/edgelesssys/constellation/v2/internal/constants" "github.com/google/go-sev-guest/abi" "github.com/google/go-sev-guest/kds" spb "github.com/google/go-sev-guest/proto/sevsnp" "github.com/google/go-sev-guest/verify/trust" ) // Product returns the SEV product info currently supported by Constellation's SNP attestation. func Product() *spb.SevProduct { // sevProduct is the product info of the SEV platform as reported through CPUID[EAX=1]. // It may become necessary in the future to differentiate among CSP vendors. return &spb.SevProduct{Name: spb.SevProduct_SEV_PRODUCT_MILAN, Stepping: 0} // Milan-B0 } // InstanceInfo contains the necessary information to establish trust in a SNP CVM. type InstanceInfo struct { // ReportSigner is the PEM-encoded certificate used to validate the attestation report's signature. ReportSigner []byte // CertChain is the PEM-encoded certificate chain for the attestation report (ASK+ARK). // Intermediate key that validates the ReportSigner and root key. CertChain []byte // AttestationReport is the attestation report from the vTPM (NVRAM) of the CVM. AttestationReport []byte Azure *AzureInstanceInfo } // AzureInstanceInfo contains Azure specific information related to SNP attestation. type AzureInstanceInfo struct { // RuntimeData is the Azure runtime data from the vTPM (NVRAM) of the CVM. RuntimeData []byte // MAAToken is the token of the MAA for the attestation report, used as a fallback // if the IDKeyDigest cannot be verified. MAAToken string } // addReportSigner parses the reportSigner certificate (VCEK/VLEK) from a and adds it to the attestation proto att. // If reportSigner is empty and a VLEK is required, an error is returned. // If reportSigner is empty and a VCEK is required, the VCEK is retrieved from AMD KDS. func (a *InstanceInfo) addReportSigner(att *spb.Attestation, report *spb.Report, productName string, getter trust.HTTPSGetter, logger attestation.Logger) (abi.ReportSigner, error) { // If the VCEK certificate is present, parse it and format it. reportSigner, err := a.ParseReportSigner() if err != nil { logger.Warnf("Error parsing report signer: %v", err) } signerInfo, err := abi.ParseSignerInfo(report.GetSignerInfo()) if err != nil { return abi.NoneReportSigner, fmt.Errorf("parsing signer info: %w", err) } switch signerInfo.SigningKey { case abi.VlekReportSigner: if reportSigner == nil { return abi.NoneReportSigner, fmt.Errorf("VLEK certificate required but not present") } att.CertificateChain.VlekCert = reportSigner.Raw case abi.VcekReportSigner: var vcekData []byte // If no VCEK is present, fetch it from AMD. if reportSigner == nil { logger.Infof("VCEK certificate not present, falling back to retrieving it from AMD KDS") vcekURL := kds.VCEKCertURL(productName, report.GetChipId(), kds.TCBVersion(report.GetReportedTcb())) vcekData, err = getter.Get(vcekURL) if err != nil { return abi.NoneReportSigner, fmt.Errorf("retrieving VCEK certificate from AMD KDS: %w", err) } } else { vcekData = reportSigner.Raw } att.CertificateChain.VcekCert = vcekData } return signerInfo.SigningKey, nil } // AttestationWithCerts returns a formatted version of the attestation report and its certificates from the instanceInfo. // Certificates are retrieved in the following precedence: // 1. ASK or ARK from issuer. On Azure: THIM. One AWS: not prefilled. // 2. ASK or ARK from fallbackCerts. // 3. ASK or ARK from AMD KDS. func (a *InstanceInfo) AttestationWithCerts(getter trust.HTTPSGetter, fallbackCerts CertificateChain, logger attestation.Logger, ) (*spb.Attestation, error) { report, err := abi.ReportToProto(a.AttestationReport) if err != nil { return nil, fmt.Errorf("converting report to proto: %w", err) } productName := kds.ProductString(Product()) att := &spb.Attestation{ Report: report, CertificateChain: &spb.CertificateChain{}, Product: Product(), } // Add VCEK/VLEK to attestation object. signingInfo, err := a.addReportSigner(att, report, productName, getter, logger) if err != nil { return nil, fmt.Errorf("adding report signer: %w", err) } // If the certificate chain from THIM is present, parse it and format it. ask, ark, err := a.ParseCertChain() if err != nil { logger.Warnf("Error parsing certificate chain: %v", err) } if ask != nil { logger.Infof("Using ASK certificate from Azure THIM") att.CertificateChain.AskCert = ask.Raw } if ark != nil { logger.Infof("Using ARK certificate from Azure THIM") att.CertificateChain.ArkCert = ark.Raw } // If a cached ASK or an ARK from the Constellation config is present, use it. if att.CertificateChain.AskCert == nil && fallbackCerts.ask != nil { logger.Infof("Using cached ASK certificate") att.CertificateChain.AskCert = fallbackCerts.ask.Raw } if att.CertificateChain.ArkCert == nil && fallbackCerts.ark != nil { logger.Infof("Using ARK certificate from %s", constants.ConfigFilename) att.CertificateChain.ArkCert = fallbackCerts.ark.Raw } // Otherwise, retrieve it from AMD KDS. if att.CertificateChain.AskCert == nil || att.CertificateChain.ArkCert == nil { logger.Infof( "Certificate chain not fully present (ARK present: %t, ASK present: %t), falling back to retrieving it from AMD KDS", (att.CertificateChain.ArkCert != nil), (att.CertificateChain.AskCert != nil), ) kdsCertChain, err := trust.GetProductChain(productName, signingInfo, getter) if err != nil { return nil, fmt.Errorf("retrieving certificate chain from AMD KDS: %w", err) } if att.CertificateChain.AskCert == nil && kdsCertChain.Ask != nil { logger.Infof("Using ASK certificate from AMD KDS") att.CertificateChain.AskCert = kdsCertChain.Ask.Raw } if att.CertificateChain.ArkCert == nil && kdsCertChain.Ask != nil { logger.Infof("Using ARK certificate from AMD KDS") att.CertificateChain.ArkCert = kdsCertChain.Ark.Raw } } return att, nil } // CertificateChain stores an AMD signing key (ASK) and AMD root key (ARK) certificate. type CertificateChain struct { ask *x509.Certificate ark *x509.Certificate } // NewCertificateChain returns a new CertificateChain with the given ASK and ARK certificates. func NewCertificateChain(ask, ark *x509.Certificate) CertificateChain { return CertificateChain{ ask: ask, ark: ark, } } // ParseCertChain parses the certificate chain from the instanceInfo into x509-formatted ASK and ARK certificates. // If less than 2 certificates are present, only the present certificate is returned. // If more than 2 certificates are present, an error is returned. func (a *InstanceInfo) ParseCertChain() (ask, ark *x509.Certificate, retErr error) { rest := bytes.TrimSpace(a.CertChain) i := 1 var block *pem.Block for block, rest = pem.Decode(rest); block != nil; block, rest = pem.Decode(rest) { if i > 2 { retErr = fmt.Errorf("parse certificate %d: more than 2 certificates in chain", i) return } if block.Type != "CERTIFICATE" { retErr = fmt.Errorf("parse certificate %d: expected PEM block type 'CERTIFICATE', got '%s'", i, block.Type) return } cert, err := x509.ParseCertificate(block.Bytes) if err != nil { retErr = fmt.Errorf("parse certificate %d: %w", i, err) return } // https://www.amd.com/content/dam/amd/en/documents/epyc-technical-docs/specifications/57230.pdf // Table 6 and 7 switch cert.Subject.CommonName { case "SEV-Milan", "SEV-VLEK-Milan": ask = cert case "ARK-Milan": ark = cert default: retErr = fmt.Errorf("parse certificate %d: unexpected subject CN %s", i, cert.Subject.CommonName) return } i++ } switch { case i == 1: retErr = fmt.Errorf("no PEM blocks found") case len(rest) != 0: retErr = fmt.Errorf("remaining PEM block is not a valid certificate: %s", rest) } return } // ParseReportSigner parses the VCEK/VLEK certificate from the instanceInfo into an x509-formatted certificate. // If no certificate is present, nil is returned. func (a *InstanceInfo) ParseReportSigner() (*x509.Certificate, error) { newlinesTrimmed := bytes.TrimSpace(a.ReportSigner) if len(newlinesTrimmed) == 0 { // VCEK is not present. return nil, nil } block, rest := pem.Decode(newlinesTrimmed) if block == nil { return nil, fmt.Errorf("no PEM blocks found") } if len(rest) != 0 { return nil, fmt.Errorf("received more data than expected") } if block.Type != "CERTIFICATE" { return nil, fmt.Errorf("expected PEM block type 'CERTIFICATE', got '%s'", block.Type) } reportSigner, err := x509.ParseCertificate(block.Bytes) if err != nil { return nil, fmt.Errorf("parsing VCEK certificate: %w", err) } return reportSigner, nil }