package provisioner import ( "context" "crypto/x509" "encoding/pem" "fmt" "net" "strings" "time" "github.com/pkg/errors" ) // ACMEChallenge represents the supported acme challenges. type ACMEChallenge string //nolint:stylecheck,revive // better names const ( // HTTP_01 is the http-01 ACME challenge. HTTP_01 ACMEChallenge = "http-01" // DNS_01 is the dns-01 ACME challenge. DNS_01 ACMEChallenge = "dns-01" // TLS_ALPN_01 is the tls-alpn-01 ACME challenge. TLS_ALPN_01 ACMEChallenge = "tls-alpn-01" // DEVICE_ATTEST_01 is the device-attest-01 ACME challenge. DEVICE_ATTEST_01 ACMEChallenge = "device-attest-01" ) // String returns a normalized version of the challenge. func (c ACMEChallenge) String() string { return strings.ToLower(string(c)) } // Validate returns an error if the acme challenge is not a valid one. func (c ACMEChallenge) Validate() error { switch ACMEChallenge(c.String()) { case HTTP_01, DNS_01, TLS_ALPN_01, DEVICE_ATTEST_01: return nil default: return fmt.Errorf("acme challenge %q is not supported", c) } } // ACMEAttestationFormat represents the format used on a device-attest-01 // challenge. type ACMEAttestationFormat string const ( // APPLE is the format used to enable device-attest-01 on apple devices. APPLE ACMEAttestationFormat = "apple" // STEP is the format used to enable device-attest-01 on devices that // provide attestation certificates like the PIV interface on YubiKeys. // // TODO(mariano): should we rename this to something else. STEP ACMEAttestationFormat = "step" // TPM is the format used to enable device-attest-01 on TPMs. TPM ACMEAttestationFormat = "tpm" ) // String returns a normalized version of the attestation format. func (f ACMEAttestationFormat) String() string { return strings.ToLower(string(f)) } // Validate returns an error if the attestation format is not a valid one. func (f ACMEAttestationFormat) Validate() error { switch ACMEAttestationFormat(f.String()) { case APPLE, STEP, TPM: return nil default: return fmt.Errorf("acme attestation format %q is not supported", f) } } // ACME is the acme provisioner type, an entity that can authorize the ACME // provisioning flow. type ACME struct { *base ID string `json:"-"` Type string `json:"type"` Name string `json:"name"` ForceCN bool `json:"forceCN,omitempty"` // RequireEAB makes the provisioner require ACME EAB to be provided // by clients when creating a new Account. If set to true, the provided // EAB will be verified. If set to false and an EAB is provided, it is // not verified. Defaults to false. RequireEAB bool `json:"requireEAB,omitempty"` // Challenges contains the enabled challenges for this provisioner. If this // value is not set the default http-01, dns-01 and tls-alpn-01 challenges // will be enabled, device-attest-01 will be disabled. Challenges []ACMEChallenge `json:"challenges,omitempty"` // AttestationFormats contains the enabled attestation formats for this // provisioner. If this value is not set the default apple, step and tpm // will be used. AttestationFormats []ACMEAttestationFormat `json:"attestationFormats,omitempty"` // AttestationRoots contains a bundle of root certificates in PEM format // that will be used to verify the attestation certificates. If provided, // this bundle will be used even for well-known CAs like Apple and Yubico. AttestationRoots []byte `json:"attestationRoots,omitempty"` Claims *Claims `json:"claims,omitempty"` Options *Options `json:"options,omitempty"` attestationRootPool *x509.CertPool ctl *Controller } // GetID returns the provisioner unique identifier. func (p ACME) GetID() string { if p.ID != "" { return p.ID } return p.GetIDForToken() } // GetIDForToken returns an identifier that will be used to load the provisioner // from a token. func (p *ACME) GetIDForToken() string { return "acme/" + p.Name } // GetTokenID returns the identifier of the token. func (p *ACME) GetTokenID(ott string) (string, error) { return "", errors.New("acme provisioner does not implement GetTokenID") } // GetName returns the name of the provisioner. func (p *ACME) GetName() string { return p.Name } // GetType returns the type of provisioner. func (p *ACME) GetType() Type { return TypeACME } // GetEncryptedKey returns the base provisioner encrypted key if it's defined. func (p *ACME) GetEncryptedKey() (string, string, bool) { return "", "", false } // GetOptions returns the configured provisioner options. func (p *ACME) GetOptions() *Options { return p.Options } // DefaultTLSCertDuration returns the default TLS cert duration enforced by // the provisioner. func (p *ACME) DefaultTLSCertDuration() time.Duration { return p.ctl.Claimer.DefaultTLSCertDuration() } // Init initializes and validates the fields of an ACME type. func (p *ACME) Init(config Config) (err error) { switch { case p.Type == "": return errors.New("provisioner type cannot be empty") case p.Name == "": return errors.New("provisioner name cannot be empty") } for _, c := range p.Challenges { if err := c.Validate(); err != nil { return err } } for _, f := range p.AttestationFormats { if err := f.Validate(); err != nil { return err } } // Parse attestation roots. // The pool will be nil if the there are not roots. if rest := p.AttestationRoots; len(rest) > 0 { var block *pem.Block var hasCert bool p.attestationRootPool = x509.NewCertPool() for rest != nil { block, rest = pem.Decode(rest) if block == nil { break } cert, err := x509.ParseCertificate(block.Bytes) if err != nil { return errors.New("error parsing attestationRoots: malformed certificate") } p.attestationRootPool.AddCert(cert) hasCert = true } if !hasCert { return errors.New("error parsing attestationRoots: no certificates found") } } p.ctl, err = NewController(p, p.Claims, config, p.Options) return } // ACMEIdentifierType encodes ACME Identifier types type ACMEIdentifierType string const ( // IP is the ACME ip identifier type IP ACMEIdentifierType = "ip" // DNS is the ACME dns identifier type DNS ACMEIdentifierType = "dns" ) // ACMEIdentifier encodes ACME Order Identifiers type ACMEIdentifier struct { Type ACMEIdentifierType Value string } // AuthorizeOrderIdentifier verifies the provisioner is allowed to issue a // certificate for an ACME Order Identifier. func (p *ACME) AuthorizeOrderIdentifier(ctx context.Context, identifier ACMEIdentifier) error { x509Policy := p.ctl.getPolicy().getX509() // identifier is allowed if no policy is configured if x509Policy == nil { return nil } // assuming only valid identifiers (IP or DNS) are provided var err error switch identifier.Type { case IP: err = x509Policy.IsIPAllowed(net.ParseIP(identifier.Value)) case DNS: err = x509Policy.IsDNSAllowed(identifier.Value) default: err = fmt.Errorf("invalid ACME identifier type '%s' provided", identifier.Type) } return err } // AuthorizeSign does not do any validation, because all validation is handled // in the ACME protocol. This method returns a list of modifiers / constraints // on the resulting certificate. func (p *ACME) AuthorizeSign(ctx context.Context, token string) ([]SignOption, error) { opts := []SignOption{ p, // modifiers / withOptions newProvisionerExtensionOption(TypeACME, p.Name, ""), newForceCNOption(p.ForceCN), profileDefaultDuration(p.ctl.Claimer.DefaultTLSCertDuration()), // validators defaultPublicKeyValidator{}, newValidityValidator(p.ctl.Claimer.MinTLSCertDuration(), p.ctl.Claimer.MaxTLSCertDuration()), newX509NamePolicyValidator(p.ctl.getPolicy().getX509()), } return opts, nil } // AuthorizeRevoke is called just before the certificate is to be revoked by // the CA. It can be used to authorize revocation of a certificate. It // currently is a no-op. // TODO(hs): add configuration option that toggles revocation? Or change function signature to make it more useful? // Or move certain logic out of the Revoke API to here? Would likely involve some more stuff in the ctx. func (p *ACME) AuthorizeRevoke(ctx context.Context, token string) error { return nil } // AuthorizeRenew returns an error if the renewal is disabled. // NOTE: This method does not actually validate the certificate or check it's // revocation status. Just confirms that the provisioner that created the // certificate was configured to allow renewals. func (p *ACME) AuthorizeRenew(ctx context.Context, cert *x509.Certificate) error { return p.ctl.AuthorizeRenew(ctx, cert) } // IsChallengeEnabled checks if the given challenge is enabled. By default // http-01, dns-01 and tls-alpn-01 are enabled, to disable any of them the // Challenge provisioner property should have at least one element. func (p *ACME) IsChallengeEnabled(ctx context.Context, challenge ACMEChallenge) bool { enabledChallenges := []ACMEChallenge{ HTTP_01, DNS_01, TLS_ALPN_01, } if len(p.Challenges) > 0 { enabledChallenges = p.Challenges } for _, ch := range enabledChallenges { if strings.EqualFold(string(ch), string(challenge)) { return true } } return false } // IsAttestationFormatEnabled checks if the given attestation format is enabled. // By default apple, step and tpm are enabled, to disable any of them the // AttestationFormat provisioner property should have at least one element. func (p *ACME) IsAttestationFormatEnabled(ctx context.Context, format ACMEAttestationFormat) bool { enabledFormats := []ACMEAttestationFormat{ APPLE, STEP, TPM, } if len(p.AttestationFormats) > 0 { enabledFormats = p.AttestationFormats } for _, f := range enabledFormats { if strings.EqualFold(string(f), string(format)) { return true } } return false } // GetAttestationRoots returns certificate pool with the configured attestation // roots and reports if the pool contains at least one certificate. // // TODO(hs): we may not want to expose the root pool like this; call into an // interface function instead to authorize? func (p *ACME) GetAttestationRoots() (*x509.CertPool, bool) { return p.attestationRootPool, p.attestationRootPool != nil }