forked from TrueCloudLab/certificates
503 lines
14 KiB
Go
503 lines
14 KiB
Go
package scep
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import (
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"bytes"
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"context"
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"crypto/x509"
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"errors"
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"fmt"
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"net/url"
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"github.com/smallstep/certificates/authority/provisioner"
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database "github.com/smallstep/certificates/db"
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"github.com/smallstep/nosql"
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microx509util "github.com/micromdm/scep/crypto/x509util"
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microscep "github.com/micromdm/scep/scep"
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//"github.com/smallstep/certificates/scep/pkcs7"
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"go.mozilla.org/pkcs7"
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"go.step.sm/crypto/x509util"
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)
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var (
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certTable = []byte("scep_certs")
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)
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// Interface is the SCEP authority interface.
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type Interface interface {
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LoadProvisionerByID(string) (provisioner.Interface, error)
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GetLinkExplicit(provName string, absoluteLink bool, baseURL *url.URL, inputs ...string) string
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GetCACertificates() ([]*x509.Certificate, error)
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DecryptPKIEnvelope(ctx context.Context, msg *PKIMessage) error
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SignCSR(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage) (*PKIMessage, error)
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CreateFailureResponse(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage, info FailInfoName, infoText string) (*PKIMessage, error)
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MatchChallengePassword(ctx context.Context, password string) (bool, error)
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GetCACaps(ctx context.Context) []string
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}
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// Authority is the layer that handles all SCEP interactions.
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type Authority struct {
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backdate provisioner.Duration
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db nosql.DB
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prefix string
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dns string
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// dir *directory
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intermediateCertificate *x509.Certificate
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service Service
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signAuth SignAuthority
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}
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// AuthorityOptions required to create a new SCEP Authority.
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type AuthorityOptions struct {
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// Service provides the SCEP functions to Authority
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Service Service
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// Backdate
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Backdate provisioner.Duration
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// DB is the database used by nosql.
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DB nosql.DB
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// DNS the host used to generate accurate SCEP links. By default the authority
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// will use the Host from the request, so this value will only be used if
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// request.Host is empty.
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DNS string
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// Prefix is a URL path prefix under which the SCEP api is served. This
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// prefix is required to generate accurate SCEP links.
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Prefix string
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}
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// SignAuthority is the interface for a signing authority
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type SignAuthority interface {
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Sign(cr *x509.CertificateRequest, opts provisioner.SignOptions, signOpts ...provisioner.SignOption) ([]*x509.Certificate, error)
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LoadProvisionerByID(string) (provisioner.Interface, error)
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}
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// New returns a new Authority that implements the SCEP interface.
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func New(signAuth SignAuthority, ops AuthorityOptions) (*Authority, error) {
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if _, ok := ops.DB.(*database.SimpleDB); !ok {
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// If it's not a SimpleDB then go ahead and bootstrap the DB with the
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// necessary SCEP tables. SimpleDB should ONLY be used for testing.
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tables := [][]byte{certTable}
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for _, b := range tables {
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if err := ops.DB.CreateTable(b); err != nil {
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return nil, fmt.Errorf("%w: error creating table %s", err, string(b))
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}
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}
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}
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return &Authority{
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backdate: ops.Backdate,
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db: ops.DB,
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prefix: ops.Prefix,
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dns: ops.DNS,
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intermediateCertificate: ops.Service.certificateChain[0],
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service: ops.Service,
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signAuth: signAuth,
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}, nil
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}
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var (
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// TODO: check the default capabilities; https://tools.ietf.org/html/rfc8894#section-3.5.2
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defaultCapabilities = []string{
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"Renewal",
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"SHA-1",
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"SHA-256",
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"AES",
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"DES3",
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"SCEPStandard",
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"POSTPKIOperation",
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}
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)
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// LoadProvisionerByID calls out to the SignAuthority interface to load a
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// provisioner by ID.
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func (a *Authority) LoadProvisionerByID(id string) (provisioner.Interface, error) {
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return a.signAuth.LoadProvisionerByID(id)
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}
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// GetLinkExplicit returns the requested link from the directory.
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func (a *Authority) GetLinkExplicit(provName string, abs bool, baseURL *url.URL, inputs ...string) string {
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// TODO: taken from ACME; move it to directory (if we need a directory in SCEP)?
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return a.getLinkExplicit(provName, abs, baseURL, inputs...)
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}
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// getLinkExplicit returns an absolute or partial path to the given resource and a base
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// URL dynamically obtained from the request for which the link is being calculated.
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func (a *Authority) getLinkExplicit(provisionerName string, abs bool, baseURL *url.URL, inputs ...string) string {
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// TODO: do we need to provide a way to provide a different suffix/base?
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// Like "/cgi-bin/pkiclient.exe"? Or would it be enough to have that as the name?
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link := fmt.Sprintf("/%s", provisionerName)
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if abs {
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// Copy the baseURL value from the pointer. https://github.com/golang/go/issues/38351
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u := url.URL{}
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if baseURL != nil {
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u = *baseURL
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}
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// If no Scheme is set, then default to http (in case of SCEP)
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if u.Scheme == "" {
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u.Scheme = "http"
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}
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// If no Host is set, then use the default (first DNS attr in the ca.json).
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if u.Host == "" {
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u.Host = a.dns
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}
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u.Path = a.prefix + link
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return u.String()
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}
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return link
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}
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// GetCACertificates returns the certificate (chain) for the CA
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func (a *Authority) GetCACertificates() ([]*x509.Certificate, error) {
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// TODO: this should return: the "SCEP Server (RA)" certificate, the issuing CA up to and excl. the root
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// Some clients do need the root certificate however; also see: https://github.com/openxpki/openxpki/issues/73
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//
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// This means we might need to think about if we should use the current intermediate CA
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// certificate as the "SCEP Server (RA)" certificate. It might be better to have a distinct
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// RA certificate, with a corresponding rsa.PrivateKey, just for SCEP usage, which is signed by
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// the intermediate CA. Will need to look how we can provide this nicely within step-ca.
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//
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// This might also mean that we might want to use a distinct instance of KMS for doing the key operations,
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// so that we can use RSA just for SCEP.
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//
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// Using an RA does not seem to exist in https://tools.ietf.org/html/rfc8894, but is mentioned in
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// https://tools.ietf.org/id/draft-nourse-scep-21.html. Will continue using the CA directly for now.
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//
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// The certificate to use should probably depend on the (configured) Provisioner and may
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// use a distinct certificate, apart from the intermediate.
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if a.intermediateCertificate == nil {
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return nil, errors.New("no intermediate certificate available in SCEP authority")
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}
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return []*x509.Certificate{a.intermediateCertificate}, nil
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}
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// DecryptPKIEnvelope decrypts an enveloped message
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func (a *Authority) DecryptPKIEnvelope(ctx context.Context, msg *PKIMessage) error {
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p7c, err := pkcs7.Parse(msg.P7.Content)
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if err != nil {
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return err
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}
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envelope, err := p7c.Decrypt(a.intermediateCertificate, a.service.decrypter)
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if err != nil {
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return err
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}
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msg.pkiEnvelope = envelope
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switch msg.MessageType {
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case microscep.CertRep:
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certs, err := microscep.CACerts(msg.pkiEnvelope)
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if err != nil {
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return err
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}
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msg.CertRepMessage.Certificate = certs[0] // TODO: check correctness of this
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return nil
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case microscep.PKCSReq, microscep.UpdateReq, microscep.RenewalReq:
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csr, err := x509.ParseCertificateRequest(msg.pkiEnvelope)
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if err != nil {
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return fmt.Errorf("parse CSR from pkiEnvelope: %w", err)
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}
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// check for challengePassword
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cp, err := microx509util.ParseChallengePassword(msg.pkiEnvelope)
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if err != nil {
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return fmt.Errorf("scep: parse challenge password in pkiEnvelope: %w", err)
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}
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msg.CSRReqMessage = µscep.CSRReqMessage{
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RawDecrypted: msg.pkiEnvelope,
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CSR: csr,
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ChallengePassword: cp,
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}
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return nil
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case microscep.GetCRL, microscep.GetCert, microscep.CertPoll:
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return fmt.Errorf("not implemented") //errNotImplemented
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}
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return nil
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}
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// SignCSR creates an x509.Certificate based on a CSR template and Cert Authority credentials
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// returns a new PKIMessage with CertRep data
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//func (msg *PKIMessage) SignCSR(crtAuth *x509.Certificate, keyAuth *rsa.PrivateKey, template *x509.Certificate) (*PKIMessage, error) {
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//func (a *Authority) SignCSR(ctx context.Context, msg *PKIMessage, template *x509.Certificate) (*PKIMessage, error) {
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func (a *Authority) SignCSR(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage) (*PKIMessage, error) {
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// TODO: intermediate storage of the request? In SCEP it's possible to request a csr/certificate
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// to be signed, which can be performed asynchronously / out-of-band. In that case a client can
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// poll for the status. It seems to be similar as what can happen in ACME, so might want to model
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// the implementation after the one in the ACME authority. Requires storage, etc.
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p, err := ProvisionerFromContext(ctx)
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if err != nil {
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return nil, err
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}
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// check if CSRReqMessage has already been decrypted
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if msg.CSRReqMessage.CSR == nil {
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if err := a.DecryptPKIEnvelope(ctx, msg); err != nil {
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return nil, err
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}
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csr = msg.CSRReqMessage.CSR
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}
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// Template data
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data := x509util.NewTemplateData()
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data.SetCommonName(csr.Subject.CommonName)
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data.SetSANs(csr.DNSNames)
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data.SetCertificateRequest(csr)
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// Get authorizations from the SCEP provisioner.
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ctx = provisioner.NewContextWithMethod(ctx, provisioner.SignMethod)
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signOps, err := p.AuthorizeSign(ctx, "")
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if err != nil {
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return nil, fmt.Errorf("error retrieving authorization options from SCEP provisioner: %w", err)
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}
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opts := provisioner.SignOptions{
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// NotBefore: provisioner.NewTimeDuration(o.NotBefore),
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// NotAfter: provisioner.NewTimeDuration(o.NotAfter),
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}
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templateOptions, err := provisioner.TemplateOptions(p.GetOptions(), data)
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if err != nil {
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return nil, fmt.Errorf("error creating template options from SCEP provisioner: %w", err)
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}
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signOps = append(signOps, templateOptions)
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certChain, err := a.signAuth.Sign(csr, opts, signOps...)
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if err != nil {
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return nil, fmt.Errorf("error generating certificate for order %w", err)
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}
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cert := certChain[0]
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// create a degenerate cert structure
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deg, err := degenerateCertificates([]*x509.Certificate{cert})
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if err != nil {
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return nil, err
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}
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e7, err := pkcs7.Encrypt(deg, msg.P7.Certificates)
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if err != nil {
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return nil, err
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}
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// PKIMessageAttributes to be signed
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config := pkcs7.SignerInfoConfig{
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ExtraSignedAttributes: []pkcs7.Attribute{
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{
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Type: oidSCEPtransactionID,
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Value: msg.TransactionID,
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},
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{
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Type: oidSCEPpkiStatus,
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Value: microscep.SUCCESS,
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},
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{
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Type: oidSCEPmessageType,
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Value: microscep.CertRep,
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},
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{
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Type: oidSCEPrecipientNonce,
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Value: msg.SenderNonce,
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},
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{
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Type: oidSCEPsenderNonce,
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Value: msg.SenderNonce,
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},
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},
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}
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signedData, err := pkcs7.NewSignedData(e7)
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if err != nil {
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return nil, err
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}
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// add the certificate into the signed data type
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// this cert must be added before the signedData because the recipient will expect it
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// as the first certificate in the array
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signedData.AddCertificate(cert)
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authCert := a.intermediateCertificate
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// sign the attributes
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if err := signedData.AddSigner(authCert, a.service.signer, config); err != nil {
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return nil, err
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}
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certRepBytes, err := signedData.Finish()
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if err != nil {
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return nil, err
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}
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cr := &CertRepMessage{
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PKIStatus: microscep.SUCCESS,
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RecipientNonce: microscep.RecipientNonce(msg.SenderNonce),
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Certificate: cert,
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degenerate: deg,
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}
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// create a CertRep message from the original
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crepMsg := &PKIMessage{
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Raw: certRepBytes,
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TransactionID: msg.TransactionID,
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MessageType: microscep.CertRep,
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CertRepMessage: cr,
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}
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// TODO: save more data?
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_, err = newCert(a.db, CertOptions{
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Leaf: certChain[0],
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Intermediates: certChain[1:],
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})
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if err != nil {
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fmt.Println(err)
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return nil, err
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}
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return crepMsg, nil
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}
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// CreateFailureResponse creates an appropriately signed reply for PKI operations
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func (a *Authority) CreateFailureResponse(ctx context.Context, csr *x509.CertificateRequest, msg *PKIMessage, info FailInfoName, infoText string) (*PKIMessage, error) {
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config := pkcs7.SignerInfoConfig{
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ExtraSignedAttributes: []pkcs7.Attribute{
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{
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Type: oidSCEPtransactionID,
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Value: msg.TransactionID,
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},
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{
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Type: oidSCEPpkiStatus,
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Value: microscep.FAILURE,
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},
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{
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Type: oidSCEPfailInfo,
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Value: info,
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},
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{
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Type: oidSCEPfailInfoText,
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Value: infoText,
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},
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{
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Type: oidSCEPmessageType,
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Value: microscep.CertRep,
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},
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{
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Type: oidSCEPsenderNonce,
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Value: msg.SenderNonce,
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},
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{
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Type: oidSCEPrecipientNonce,
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Value: msg.SenderNonce,
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},
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},
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}
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signedData, err := pkcs7.NewSignedData(nil)
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if err != nil {
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return nil, err
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}
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// sign the attributes
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if err := signedData.AddSigner(a.intermediateCertificate, a.service.signer, config); err != nil {
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return nil, err
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}
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certRepBytes, err := signedData.Finish()
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if err != nil {
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return nil, err
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}
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cr := &CertRepMessage{
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PKIStatus: microscep.FAILURE,
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FailInfo: microscep.BadRequest,
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RecipientNonce: microscep.RecipientNonce(msg.SenderNonce),
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}
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// create a CertRep message from the original
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crepMsg := &PKIMessage{
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Raw: certRepBytes,
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TransactionID: msg.TransactionID,
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MessageType: microscep.CertRep,
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CertRepMessage: cr,
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}
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return crepMsg, nil
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}
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// MatchChallengePassword verifies a SCEP challenge password
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func (a *Authority) MatchChallengePassword(ctx context.Context, password string) (bool, error) {
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p, err := ProvisionerFromContext(ctx)
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if err != nil {
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return false, err
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}
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if p.GetChallengePassword() == password {
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return true, nil
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}
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// TODO: support dynamic challenges, i.e. a list of challenges instead of one?
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// That's probably a bit harder to configure, though; likely requires some data store
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// that can be interacted with more easily, via some internal API, for example.
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return false, nil
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}
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// GetCACaps returns the CA capabilities
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func (a *Authority) GetCACaps(ctx context.Context) []string {
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p, err := ProvisionerFromContext(ctx)
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if err != nil {
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return defaultCapabilities
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}
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caps := p.GetCapabilities()
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if len(caps) == 0 {
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return defaultCapabilities
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}
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// TODO: validate the caps? Ensure they are the right format according to RFC?
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// TODO: ensure that the capabilities are actually "enforced"/"verified" in code too:
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// check that only parts of the spec are used in the implementation belonging to the capabilities.
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// For example for renewals, which we could disable in the provisioner, should then also
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// not be reported in cacaps operation.
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return caps
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}
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// degenerateCertificates creates degenerate certificates pkcs#7 type
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func degenerateCertificates(certs []*x509.Certificate) ([]byte, error) {
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var buf bytes.Buffer
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for _, cert := range certs {
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buf.Write(cert.Raw)
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}
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degenerate, err := pkcs7.DegenerateCertificate(buf.Bytes())
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if err != nil {
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return nil, err
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}
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return degenerate, nil
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}
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// Interface guards
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var (
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_ Interface = (*Authority)(nil)
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)
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