pki/trust_store.h - boringssl - Git at Google

 // Copyright 2016 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BSSL_PKI_TRUST_STORE_H_
 #define BSSL_PKI_TRUST_STORE_H_

 #include <optional>

 #include <openssl/base.h>

 #include "cert_issuer_source.h"
 #include "parsed_certificate.h"

 namespace bssl {

 enum class CertificateTrustType {
   // This certificate is explicitly blocked (distrusted).
   DISTRUSTED,

   // The trustedness of this certificate is unknown (inherits trust from
   // its issuer).
   UNSPECIFIED,

   // This certificate is a trust anchor (as defined by RFC 5280).
   TRUSTED_ANCHOR,

   // This certificate can be used as a trust anchor (as defined by RFC 5280) or
   // a trusted leaf, depending on context.
   TRUSTED_ANCHOR_OR_LEAF,

   // This certificate is a directly trusted leaf.
   TRUSTED_LEAF,

   LAST = TRUSTED_ANCHOR
 };

 // Describes the level of trust in a certificate.
 struct OPENSSL_EXPORT CertificateTrust {
   static constexpr CertificateTrust ForTrustAnchor() {
     CertificateTrust result;
     result.type = CertificateTrustType::TRUSTED_ANCHOR;
     return result;
   }

   static constexpr CertificateTrust ForTrustAnchorOrLeaf() {
     CertificateTrust result;
     result.type = CertificateTrustType::TRUSTED_ANCHOR_OR_LEAF;
     return result;
   }

   static constexpr CertificateTrust ForTrustedLeaf() {
     CertificateTrust result;
     result.type = CertificateTrustType::TRUSTED_LEAF;
     return result;
   }

   static constexpr CertificateTrust ForUnspecified() {
     CertificateTrust result;
     return result;
   }

   static constexpr CertificateTrust ForDistrusted() {
     CertificateTrust result;
     result.type = CertificateTrustType::DISTRUSTED;
     return result;
   }

   constexpr CertificateTrust WithEnforceAnchorExpiry(bool value = true) const {
     CertificateTrust result = *this;
     result.enforce_anchor_expiry = value;
     return result;
   }

   constexpr CertificateTrust WithEnforceAnchorConstraints(
       bool value = true) const {
     CertificateTrust result = *this;
     result.enforce_anchor_constraints = value;
     return result;
   }

   constexpr CertificateTrust WithRequireAnchorBasicConstraints(
       bool value = true) const {
     CertificateTrust result = *this;
     result.require_anchor_basic_constraints = value;
     return result;
   }

   constexpr CertificateTrust WithRequireLeafSelfSigned(
       bool value = true) const {
     CertificateTrust result = *this;
     result.require_leaf_selfsigned = value;
     return result;
   }

   bool IsTrustAnchor() const;
   bool IsTrustLeaf() const;
   bool IsDistrusted() const;
   bool HasUnspecifiedTrust() const;

   std::string ToDebugString() const;

   static std::optional<CertificateTrust> FromDebugString(
       const std::string &trust_string);

   // The overall type of trust.
   CertificateTrustType type = CertificateTrustType::UNSPECIFIED;

   // Optionally, enforce extra bits on trust anchors. If these are false, the
   // only fields in a trust anchor certificate that are meaningful are its
   // name and SPKI.
   bool enforce_anchor_expiry = false;
   bool enforce_anchor_constraints = false;
   // Require that X.509v3 trust anchors have a basicConstraints extension.
   // X.509v1 and X.509v2 trust anchors do not support basicConstraints and are
   // not affected.
   // Additionally, this setting only has effect if `enforce_anchor_constraints`
   // is true, which also requires that the extension assert CA=true.
   bool require_anchor_basic_constraints = false;

   // Optionally, require trusted leafs to be self-signed to be trusted.
   bool require_leaf_selfsigned = false;
 };

 // Interface for finding intermediates / trust anchors, and testing the
 // trustedness of certificates.
 class OPENSSL_EXPORT TrustStore : public CertIssuerSource {
  public:
   TrustStore();

   TrustStore(const TrustStore &) = delete;
   TrustStore &operator=(const TrustStore &) = delete;

   // Returns the trusted of |cert|, which must be non-null.
   virtual CertificateTrust GetTrust(const ParsedCertificate *cert) = 0;

   // Disable async issuers for TrustStore, as it isn't needed.
   void AsyncGetIssuersOf(const ParsedCertificate *cert,
                          std::unique_ptr<Request> *out_req) final;
 };

 }  // namespace bssl

 #endif  // BSSL_PKI_TRUST_STORE_H_
	// Copyright 2016 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BSSL_PKI_TRUST_STORE_H_
	#define BSSL_PKI_TRUST_STORE_H_

	#include <optional>

	#include <openssl/base.h>

	#include "cert_issuer_source.h"
	#include "parsed_certificate.h"

	namespace bssl {

	enum class CertificateTrustType {
	// This certificate is explicitly blocked (distrusted).
	DISTRUSTED,

	// The trustedness of this certificate is unknown (inherits trust from
	// its issuer).
	UNSPECIFIED,

	// This certificate is a trust anchor (as defined by RFC 5280).
	TRUSTED_ANCHOR,

	// This certificate can be used as a trust anchor (as defined by RFC 5280) or
	// a trusted leaf, depending on context.
	TRUSTED_ANCHOR_OR_LEAF,

	// This certificate is a directly trusted leaf.
	TRUSTED_LEAF,

	LAST = TRUSTED_ANCHOR
	};

	// Describes the level of trust in a certificate.
	struct OPENSSL_EXPORT CertificateTrust {
	static constexpr CertificateTrust ForTrustAnchor() {
	CertificateTrust result;
	result.type = CertificateTrustType::TRUSTED_ANCHOR;
	return result;
	}

	static constexpr CertificateTrust ForTrustAnchorOrLeaf() {
	CertificateTrust result;
	result.type = CertificateTrustType::TRUSTED_ANCHOR_OR_LEAF;
	return result;
	}

	static constexpr CertificateTrust ForTrustedLeaf() {
	CertificateTrust result;
	result.type = CertificateTrustType::TRUSTED_LEAF;
	return result;
	}

	static constexpr CertificateTrust ForUnspecified() {
	CertificateTrust result;
	return result;
	}

	static constexpr CertificateTrust ForDistrusted() {
	CertificateTrust result;
	result.type = CertificateTrustType::DISTRUSTED;
	return result;
	}

	constexpr CertificateTrust WithEnforceAnchorExpiry(bool value = true) const {
	CertificateTrust result = *this;
	result.enforce_anchor_expiry = value;
	return result;
	}

	constexpr CertificateTrust WithEnforceAnchorConstraints(
	bool value = true) const {
	CertificateTrust result = *this;
	result.enforce_anchor_constraints = value;
	return result;
	}

	constexpr CertificateTrust WithRequireAnchorBasicConstraints(
	bool value = true) const {
	CertificateTrust result = *this;
	result.require_anchor_basic_constraints = value;
	return result;
	}

	constexpr CertificateTrust WithRequireLeafSelfSigned(
	bool value = true) const {
	CertificateTrust result = *this;
	result.require_leaf_selfsigned = value;
	return result;
	}

	bool IsTrustAnchor() const;
	bool IsTrustLeaf() const;
	bool IsDistrusted() const;
	bool HasUnspecifiedTrust() const;

	std::string ToDebugString() const;

	static std::optional<CertificateTrust> FromDebugString(
	const std::string &trust_string);

	// The overall type of trust.
	CertificateTrustType type = CertificateTrustType::UNSPECIFIED;

	// Optionally, enforce extra bits on trust anchors. If these are false, the
	// only fields in a trust anchor certificate that are meaningful are its
	// name and SPKI.
	bool enforce_anchor_expiry = false;
	bool enforce_anchor_constraints = false;
	// Require that X.509v3 trust anchors have a basicConstraints extension.
	// X.509v1 and X.509v2 trust anchors do not support basicConstraints and are
	// not affected.
	// Additionally, this setting only has effect if `enforce_anchor_constraints`
	// is true, which also requires that the extension assert CA=true.
	bool require_anchor_basic_constraints = false;

	// Optionally, require trusted leafs to be self-signed to be trusted.
	bool require_leaf_selfsigned = false;
	};

	// Interface for finding intermediates / trust anchors, and testing the
	// trustedness of certificates.
	class OPENSSL_EXPORT TrustStore : public CertIssuerSource {
	public:
	TrustStore();

	TrustStore(const TrustStore &) = delete;
	TrustStore &operator=(const TrustStore &) = delete;

	// Returns the trusted of \|cert\|, which must be non-null.
	virtual CertificateTrust GetTrust(const ParsedCertificate *cert) = 0;

	// Disable async issuers for TrustStore, as it isn't needed.
	void AsyncGetIssuersOf(const ParsedCertificate *cert,
	std::unique_ptr<Request> *out_req) final;
	};

	} // namespace bssl

	#endif // BSSL_PKI_TRUST_STORE_H_