321 lines
10 KiB
Go
321 lines
10 KiB
Go
package provisioner
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import (
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"context"
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"crypto/x509"
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"encoding/pem"
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"net/http"
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"time"
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"github.com/pkg/errors"
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"github.com/smallstep/certificates/errs"
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"go.step.sm/crypto/jose"
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"go.step.sm/crypto/sshutil"
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"go.step.sm/crypto/x509util"
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)
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// x5cPayload extends jwt.Claims with step attributes.
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type x5cPayload struct {
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jose.Claims
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SANs []string `json:"sans,omitempty"`
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Step *stepPayload `json:"step,omitempty"`
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chains [][]*x509.Certificate
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}
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// X5C is the default provisioner, an entity that can sign tokens necessary for
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// signature requests.
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type X5C struct {
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*base
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ID string `json:"-"`
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Type string `json:"type"`
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Name string `json:"name"`
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Roots []byte `json:"roots"`
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Claims *Claims `json:"claims,omitempty"`
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Options *Options `json:"options,omitempty"`
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ctl *Controller
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rootPool *x509.CertPool
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}
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// GetID returns the provisioner unique identifier. The name and credential id
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// should uniquely identify any X5C provisioner.
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func (p *X5C) GetID() string {
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if p.ID != "" {
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return p.ID
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}
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return p.GetIDForToken()
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}
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// GetIDForToken returns an identifier that will be used to load the provisioner
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// from a token.
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func (p *X5C) GetIDForToken() string {
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return "x5c/" + p.Name
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}
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// GetTokenID returns the identifier of the token.
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func (p *X5C) GetTokenID(ott string) (string, error) {
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// Validate payload
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token, err := jose.ParseSigned(ott)
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if err != nil {
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return "", errors.Wrap(err, "error parsing token")
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}
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// Get claims w/out verification. We need to look up the provisioner
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// key in order to verify the claims and we need the issuer from the claims
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// before we can look up the provisioner.
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var claims jose.Claims
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if err = token.UnsafeClaimsWithoutVerification(&claims); err != nil {
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return "", errors.Wrap(err, "error verifying claims")
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}
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return claims.ID, nil
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}
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// GetName returns the name of the provisioner.
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func (p *X5C) GetName() string {
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return p.Name
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}
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// GetType returns the type of provisioner.
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func (p *X5C) GetType() Type {
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return TypeX5C
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}
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// GetEncryptedKey returns the base provisioner encrypted key if it's defined.
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func (p *X5C) GetEncryptedKey() (string, string, bool) {
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return "", "", false
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}
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// Init initializes and validates the fields of a X5C type.
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func (p *X5C) Init(config Config) (err error) {
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switch {
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case p.Type == "":
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return errors.New("provisioner type cannot be empty")
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case p.Name == "":
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return errors.New("provisioner name cannot be empty")
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case len(p.Roots) == 0:
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return errors.New("provisioner root(s) cannot be empty")
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}
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p.rootPool = x509.NewCertPool()
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var (
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block *pem.Block
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rest = p.Roots
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count int
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)
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for rest != nil {
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block, rest = pem.Decode(rest)
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if block == nil {
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break
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}
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cert, err := x509.ParseCertificate(block.Bytes)
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if err != nil {
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return errors.Wrap(err, "error parsing x509 certificate from PEM block")
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}
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count++
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p.rootPool.AddCert(cert)
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}
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// Verify that at least one root was found.
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if count == 0 {
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return errors.Errorf("no x509 certificates found in roots attribute for provisioner '%s'", p.GetName())
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}
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config.Audiences = config.Audiences.WithFragment(p.GetIDForToken())
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p.ctl, err = NewController(p, p.Claims, config)
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return
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}
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// authorizeToken performs common jwt authorization actions and returns the
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// claims for case specific downstream parsing.
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// e.g. a Sign request will auth/validate different fields than a Revoke request.
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func (p *X5C) authorizeToken(token string, audiences []string) (*x5cPayload, error) {
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jwt, err := jose.ParseSigned(token)
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if err != nil {
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return nil, errs.Wrap(http.StatusUnauthorized, err, "x5c.authorizeToken; error parsing x5c token")
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}
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verifiedChains, err := jwt.Headers[0].Certificates(x509.VerifyOptions{
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Roots: p.rootPool,
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KeyUsages: []x509.ExtKeyUsage{x509.ExtKeyUsageClientAuth},
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})
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if err != nil {
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return nil, errs.Wrap(http.StatusUnauthorized, err,
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"x5c.authorizeToken; error verifying x5c certificate chain in token")
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}
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leaf := verifiedChains[0][0]
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if leaf.KeyUsage&x509.KeyUsageDigitalSignature == 0 {
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return nil, errs.Unauthorized("x5c.authorizeToken; certificate used to sign x5c token cannot be used for digital signature")
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}
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// Using the leaf certificates key to validate the claims accomplishes two
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// things:
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// 1. Asserts that the private key used to sign the token corresponds
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// to the public certificate in the `x5c` header of the token.
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// 2. Asserts that the claims are valid - have not been tampered with.
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var claims x5cPayload
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if err = jwt.Claims(leaf.PublicKey, &claims); err != nil {
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return nil, errs.Wrap(http.StatusUnauthorized, err, "x5c.authorizeToken; error parsing x5c claims")
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}
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// According to "rfc7519 JSON Web Token" acceptable skew should be no
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// more than a few minutes.
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if err = claims.ValidateWithLeeway(jose.Expected{
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Issuer: p.Name,
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Time: time.Now().UTC(),
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}, time.Minute); err != nil {
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return nil, errs.Wrapf(http.StatusUnauthorized, err, "x5c.authorizeToken; invalid x5c claims")
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}
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// validate audiences with the defaults
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if !matchesAudience(claims.Audience, audiences) {
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return nil, errs.Unauthorized("x5c.authorizeToken; x5c token has invalid audience "+
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"claim (aud); expected %s, but got %s", audiences, claims.Audience)
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}
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if claims.Subject == "" {
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return nil, errs.Unauthorized("x5c.authorizeToken; x5c token subject cannot be empty")
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}
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// Save the verified chains on the x5c payload object.
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claims.chains = verifiedChains
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return &claims, nil
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}
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// AuthorizeRevoke returns an error if the provisioner does not have rights to
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// revoke the certificate with serial number in the `sub` property.
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func (p *X5C) AuthorizeRevoke(ctx context.Context, token string) error {
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_, err := p.authorizeToken(token, p.ctl.Audiences.Revoke)
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return errs.Wrap(http.StatusInternalServerError, err, "x5c.AuthorizeRevoke")
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}
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// AuthorizeSign validates the given token.
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func (p *X5C) AuthorizeSign(ctx context.Context, token string) ([]SignOption, error) {
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claims, err := p.authorizeToken(token, p.ctl.Audiences.Sign)
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if err != nil {
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return nil, errs.Wrap(http.StatusInternalServerError, err, "x5c.AuthorizeSign")
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}
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// NOTE: This is for backwards compatibility with older versions of cli
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// and certificates. Older versions added the token subject as the only SAN
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// in a CSR by default.
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if len(claims.SANs) == 0 {
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claims.SANs = []string{claims.Subject}
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}
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// Certificate templates
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data := x509util.CreateTemplateData(claims.Subject, claims.SANs)
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if v, err := unsafeParseSigned(token); err == nil {
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data.SetToken(v)
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}
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// The X509 certificate will be available using the template variable
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// AuthorizationCrt. For example {{ .AuthorizationCrt.DNSNames }} can be
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// used to get all the domains.
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data.SetAuthorizationCertificate(claims.chains[0][0])
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templateOptions, err := TemplateOptions(p.Options, data)
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if err != nil {
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return nil, errs.Wrap(http.StatusInternalServerError, err, "jwk.AuthorizeSign")
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}
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return []SignOption{
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p,
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templateOptions,
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// modifiers / withOptions
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newProvisionerExtensionOption(TypeX5C, p.Name, ""),
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profileLimitDuration{
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p.ctl.Claimer.DefaultTLSCertDuration(),
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claims.chains[0][0].NotBefore, claims.chains[0][0].NotAfter,
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},
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// validators
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commonNameValidator(claims.Subject),
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defaultSANsValidator(claims.SANs),
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defaultPublicKeyValidator{},
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newValidityValidator(p.ctl.Claimer.MinTLSCertDuration(), p.ctl.Claimer.MaxTLSCertDuration()),
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}, nil
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}
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// AuthorizeRenew returns an error if the renewal is disabled.
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func (p *X5C) AuthorizeRenew(ctx context.Context, cert *x509.Certificate) error {
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return p.ctl.AuthorizeRenew(ctx, cert)
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}
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// AuthorizeSSHSign returns the list of SignOption for a SignSSH request.
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func (p *X5C) AuthorizeSSHSign(ctx context.Context, token string) ([]SignOption, error) {
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if !p.ctl.Claimer.IsSSHCAEnabled() {
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return nil, errs.Unauthorized("x5c.AuthorizeSSHSign; sshCA is disabled for x5c provisioner '%s'", p.GetName())
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}
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claims, err := p.authorizeToken(token, p.ctl.Audiences.SSHSign)
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if err != nil {
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return nil, errs.Wrap(http.StatusInternalServerError, err, "x5c.AuthorizeSSHSign")
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}
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if claims.Step == nil || claims.Step.SSH == nil {
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return nil, errs.Unauthorized("x5c.AuthorizeSSHSign; x5c token must be an SSH provisioning token")
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}
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opts := claims.Step.SSH
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signOptions := []SignOption{
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// validates user's SSHOptions with the ones in the token
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sshCertOptionsValidator(*opts),
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// validate users's KeyID is the token subject.
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sshCertOptionsValidator(SignSSHOptions{KeyID: claims.Subject}),
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}
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// Default template attributes.
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certType := sshutil.UserCert
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keyID := claims.Subject
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principals := []string{claims.Subject}
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// Use options in the token.
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if opts.CertType != "" {
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if certType, err = sshutil.CertTypeFromString(opts.CertType); err != nil {
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return nil, errs.BadRequestErr(err, err.Error())
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}
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}
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if opts.KeyID != "" {
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keyID = opts.KeyID
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}
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if len(opts.Principals) > 0 {
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principals = opts.Principals
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}
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// Certificate templates.
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data := sshutil.CreateTemplateData(certType, keyID, principals)
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if v, err := unsafeParseSigned(token); err == nil {
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data.SetToken(v)
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}
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// The X509 certificate will be available using the template variable
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// AuthorizationCrt. For example {{ .AuthorizationCrt.DNSNames }} can be
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// used to get all the domains.
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data.SetAuthorizationCertificate(claims.chains[0][0])
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templateOptions, err := TemplateSSHOptions(p.Options, data)
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if err != nil {
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return nil, errs.Wrap(http.StatusInternalServerError, err, "x5c.AuthorizeSSHSign")
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}
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signOptions = append(signOptions, templateOptions)
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// Add modifiers from custom claims
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t := now()
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if !opts.ValidAfter.IsZero() {
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signOptions = append(signOptions, sshCertValidAfterModifier(opts.ValidAfter.RelativeTime(t).Unix()))
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}
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if !opts.ValidBefore.IsZero() {
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signOptions = append(signOptions, sshCertValidBeforeModifier(opts.ValidBefore.RelativeTime(t).Unix()))
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}
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return append(signOptions,
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// Checks the validity bounds, and set the validity if has not been set.
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&sshLimitDuration{p.ctl.Claimer, claims.chains[0][0].NotAfter},
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// Validate public key.
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&sshDefaultPublicKeyValidator{},
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// Validate the validity period.
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&sshCertValidityValidator{p.ctl.Claimer},
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// Require all the fields in the SSH certificate
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&sshCertDefaultValidator{},
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), nil
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}
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