Ejemplo n.º 1
0
// NewSigner generates a new certificate signer from a Root structure.
// This is one of two standard signers: local or remote. If the root
// structure specifies a force remote, then a remote signer is created,
// otherwise either a remote or local signer is generated based on the
// policy. For a local signer, the CertFile and KeyFile need to be
// defined in Root.
func NewSigner(root Root, policy *config.Signing) (signer.Signer, error) {
	if policy == nil {
		policy = &config.Signing{
			Profiles: map[string]*config.SigningProfile{},
			Default:  config.DefaultConfig(),
		}
	}

	if !policy.Valid() {
		return nil, cferr.New(cferr.PolicyError, cferr.InvalidPolicy)
	}

	var s signer.Signer
	var err error
	if root.ForceRemote {
		s, err = remote.NewSigner(policy)
	} else {
		if policy.NeedsLocalSigner() && policy.NeedsRemoteSigner() {
			s, err = newUniversalSigner(root, policy)
		} else {
			if policy.NeedsLocalSigner() {
				s, err = newLocalSigner(root, policy)
			}
			if policy.NeedsRemoteSigner() {
				s, err = remote.NewSigner(policy)
			}
		}
	}

	return s, err
}
Ejemplo n.º 2
0
// NewSigner generates a new certificate signer from a Root structure.
// This is one of two standard signers: local or remote. If the root
// structure specifies a force remote, then a remote signer is created,
// otherwise either a remote or local signer is generated based on the
// policy. For a local signer, the CertFile and KeyFile need to be
// defined in Root.
func NewSigner(root Root, policy *config.Signing) (signer.Signer, error) {
	if policy == nil {
		policy = &config.Signing{
			Profiles: map[string]*config.SigningProfile{},
			Default:  config.DefaultConfig(),
		}
	}

	if !policy.Valid() {
		return nil, cferr.New(cferr.PolicyError, cferr.InvalidPolicy)
	}

	var s signer.Signer
	var err error
	if root.ForceRemote {
		s, err = remote.NewSigner(policy)
	} else {
		if policy.NeedsLocalSigner() && policy.NeedsRemoteSigner() {
			// Currently we don't support a hybrid signer
			return nil, cferr.New(cferr.PolicyError, cferr.InvalidPolicy)
		}

		if policy.NeedsLocalSigner() {
			// shouldProvide indicates whether the
			// function *should* have produced a key. If
			// it's true, we should use the signer and
			// error returned. Otherwise, keep looking for
			// signers.
			var shouldProvide bool
			// localSignerList is defined in the
			// universal_signers*.go files. These activate
			// and deactivate signers based on build
			// flags; for example,
			// universal_signers_pkcs11.go contains a list
			// of valid signers when PKCS #11 is turned
			// on.
			for _, possibleSigner := range localSignerList {
				s, shouldProvide, err = possibleSigner(&root, policy)
				if shouldProvide {
					break
				}
			}

			if s == nil {
				err = cferr.New(cferr.PrivateKeyError, cferr.Unknown)
			}
		}

		if policy.NeedsRemoteSigner() {
			s, err = remote.NewSigner(policy)
		}
	}

	return s, err
}
Ejemplo n.º 3
0
// NewSigner creates a new remote Signer directly from a
// signing policy.
func NewSigner(policy *config.Signing) (*Signer, error) {
	if policy != nil {
		if !policy.Valid() {
			return nil, cferr.New(cferr.PolicyError,
				cferr.InvalidPolicy)
		}
		return &Signer{policy: policy}, nil
	}

	return nil, cferr.New(cferr.PolicyError,
		cferr.InvalidPolicy)
}
Ejemplo n.º 4
0
// NewSigner creates a new Signer directly from a
// private key and certificate, with optional policy.
func NewSigner(priv crypto.Signer, cert *x509.Certificate, sigAlgo x509.SignatureAlgorithm, policy *config.Signing) (*Signer, error) {
	if policy == nil {
		policy = &config.Signing{
			Profiles: map[string]*config.SigningProfile{},
			Default:  config.DefaultConfig()}
	}

	if !policy.Valid() {
		return nil, cferr.New(cferr.PolicyError, cferr.InvalidPolicy)
	}

	return &Signer{
		ca:      cert,
		priv:    priv,
		sigAlgo: sigAlgo,
		policy:  policy,
	}, nil
}