pki/parsed_certificate.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_PARSED_CERTIFICATE_H_
 #define BSSL_PKI_PARSED_CERTIFICATE_H_

 #include <map>
 #include <memory>
 #include <optional>
 #include <vector>

 #include <openssl/base.h>

 #include "certificate_policies.h"
 #include "input.h"
 #include "parse_certificate.h"
 #include "signature_algorithm.h"

 namespace bssl {

 struct GeneralNames;
 class NameConstraints;
 class ParsedCertificate;
 class CertErrors;

 using ParsedCertificateList =
     std::vector<std::shared_ptr<const ParsedCertificate>>;

 // Represents an X.509 certificate, including Certificate, TBSCertificate, and
 // standard extensions.
 // Creating a ParsedCertificate does not completely parse and validate the
 // certificate data. Presence of a member in this class implies the DER was
 // parsed successfully to that level, but does not imply the contents of that
 // member are valid, unless otherwise specified. See the documentation for each
 // member or the documentation of the type it returns.
 class OPENSSL_EXPORT ParsedCertificate {
  private:
   // Used to make constructors private while still being compatible with
   // |std::make_shared|.
   class PrivateConstructor {
    private:
     friend ParsedCertificate;
     PrivateConstructor() = default;
   };

  public:
   ~ParsedCertificate();
   // Map from OID to ParsedExtension.
   using ExtensionsMap = std::map<der::Input, ParsedExtension>;

   // Creates a ParsedCertificate given a DER-encoded Certificate. Returns
   // nullptr on failure. Failure will occur if the standard certificate fields
   // and supported extensions cannot be parsed.
   // On either success or failure, if |errors| is non-null it may have error
   // information added to it.
   static std::shared_ptr<const ParsedCertificate> Create(
       bssl::UniquePtr<CRYPTO_BUFFER> cert_data,
       const ParseCertificateOptions &options, CertErrors *errors);

   // Creates a ParsedCertificate by copying the provided |data|, and appends it
   // to |chain|. Returns true if the certificate was successfully parsed and
   // added. If false is return, |chain| is unmodified.
   //
   // On either success or failure, if |errors| is non-null it may have error
   // information added to it.
   static bool CreateAndAddToVector(
       bssl::UniquePtr<CRYPTO_BUFFER> cert_data,
       const ParseCertificateOptions &options,
       std::vector<std::shared_ptr<const bssl::ParsedCertificate>> *chain,
       CertErrors *errors);

   explicit ParsedCertificate(PrivateConstructor);

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

   // Returns the DER-encoded certificate data for this cert.
   der::Input der_cert() const { return cert_; }

   // Returns the CRYPTO_BUFFER backing this object.
   CRYPTO_BUFFER *cert_buffer() const { return cert_data_.get(); }

   // Accessors for raw fields of the Certificate.
   der::Input tbs_certificate_tlv() const { return tbs_certificate_tlv_; }

   der::Input signature_algorithm_tlv() const {
     return signature_algorithm_tlv_;
   }

   const der::BitString &signature_value() const { return signature_value_; }

   // Accessor for struct containing raw fields of the TbsCertificate.
   const ParsedTbsCertificate &tbs() const { return tbs_; }

   // Returns the signatureAlgorithm of the Certificate (not the tbsCertificate).
   // If the signature algorithm is unknown/unsupported, this returns nullopt.
   std::optional<SignatureAlgorithm> signature_algorithm() const {
     return signature_algorithm_;
   }

   // Returns the DER-encoded raw subject value (including the outer sequence
   // tag). This is guaranteed to be valid DER, though the contents of unhandled
   // string types are treated as raw bytes.
   der::Input subject_tlv() const { return tbs_.subject_tlv; }
   // Returns the DER-encoded normalized subject value (not including outer
   // Sequence tag). This is guaranteed to be valid DER, though the contents of
   // unhandled string types are treated as raw bytes.
   der::Input normalized_subject() const {
     return der::Input(normalized_subject_);
   }
   // Returns the DER-encoded raw issuer value (including the outer sequence
   // tag). This is guaranteed to be valid DER, though the contents of unhandled
   // string types are treated as raw bytes.
   der::Input issuer_tlv() const { return tbs_.issuer_tlv; }
   // Returns the DER-encoded normalized issuer value (not including outer
   // Sequence tag). This is guaranteed to be valid DER, though the contents of
   // unhandled string types are treated as raw bytes.
   der::Input normalized_issuer() const {
     return der::Input(normalized_issuer_);
   }

   // Returns true if the certificate has a BasicConstraints extension.
   bool has_basic_constraints() const { return has_basic_constraints_; }

   // Returns the ParsedBasicConstraints struct. Caller must check
   // has_basic_constraints() before accessing this.
   const ParsedBasicConstraints &basic_constraints() const {
     BSSL_CHECK(has_basic_constraints_);
     return basic_constraints_;
   }

   // Returns true if the certificate has a KeyUsage extension.
   bool has_key_usage() const { return has_key_usage_; }

   // Returns the KeyUsage BitString. Caller must check
   // has_key_usage() before accessing this.
   const der::BitString &key_usage() const {
     BSSL_CHECK(has_key_usage_);
     return key_usage_;
   }

   // Returns true if the certificate has a ExtendedKeyUsage extension.
   bool has_extended_key_usage() const { return has_extended_key_usage_; }

   // Returns the ExtendedKeyUsage key purpose OIDs. Caller must check
   // has_extended_key_usage() before accessing this.
   const std::vector<der::Input> &extended_key_usage() const {
     BSSL_CHECK(has_extended_key_usage_);
     return extended_key_usage_;
   }

   // Returns true if the certificate has a SubjectAltName extension.
   bool has_subject_alt_names() const { return subject_alt_names_ != nullptr; }

   // Returns the ParsedExtension struct for the SubjectAltName extension.
   // If the cert did not have a SubjectAltName extension, this will be a
   // default-initialized ParsedExtension struct.
   const ParsedExtension &subject_alt_names_extension() const {
     return subject_alt_names_extension_;
   }

   // Returns the GeneralNames class parsed from SubjectAltName extension, or
   // nullptr if no SubjectAltName extension was present.
   const GeneralNames *subject_alt_names() const {
     return subject_alt_names_.get();
   }

   // Returns true if the certificate has a NameConstraints extension.
   bool has_name_constraints() const { return name_constraints_ != nullptr; }

   // Returns the parsed NameConstraints extension. Must not be called if
   // has_name_constraints() is false.
   const NameConstraints &name_constraints() const {
     BSSL_CHECK(name_constraints_);
     return *name_constraints_;
   }

   // Returns true if the certificate has an AuthorityInfoAccess extension.
   bool has_authority_info_access() const { return has_authority_info_access_; }

   // Returns the ParsedExtension struct for the AuthorityInfoAccess extension.
   const ParsedExtension &authority_info_access_extension() const {
     return authority_info_access_extension_;
   }

   // Returns any caIssuers URIs from the AuthorityInfoAccess extension.
   const std::vector<std::string_view> &ca_issuers_uris() const {
     return ca_issuers_uris_;
   }

   // Returns any OCSP URIs from the AuthorityInfoAccess extension.
   const std::vector<std::string_view> &ocsp_uris() const { return ocsp_uris_; }

   // Returns true if the certificate has a Policies extension.
   bool has_policy_oids() const { return has_policy_oids_; }

   // Returns the policy OIDs. Caller must check has_policy_oids() before
   // accessing this.
   const std::vector<der::Input> &policy_oids() const {
     BSSL_CHECK(has_policy_oids());
     return policy_oids_;
   }

   // Returns true if the certificate has a PolicyConstraints extension.
   bool has_policy_constraints() const { return has_policy_constraints_; }

   // Returns the ParsedPolicyConstraints struct. Caller must check
   // has_policy_constraints() before accessing this.
   const ParsedPolicyConstraints &policy_constraints() const {
     BSSL_CHECK(has_policy_constraints_);
     return policy_constraints_;
   }

   // Returns true if the certificate has a PolicyMappings extension.
   bool has_policy_mappings() const { return has_policy_mappings_; }

   // Returns the PolicyMappings extension. Caller must check
   // has_policy_mappings() before accessing this.
   const std::vector<ParsedPolicyMapping> &policy_mappings() const {
     BSSL_CHECK(has_policy_mappings_);
     return policy_mappings_;
   }

   // Returns the Inhibit Any Policy extension.
   const std::optional<uint8_t> &inhibit_any_policy() const {
     return inhibit_any_policy_;
   }

   // Returns the AuthorityKeyIdentifier extension, or nullopt if there wasn't
   // one.
   const std::optional<ParsedAuthorityKeyIdentifier> &authority_key_identifier()
       const {
     return authority_key_identifier_;
   }

   // Returns the SubjectKeyIdentifier extension, or nullopt if there wasn't
   // one.
   const std::optional<der::Input> &subject_key_identifier() const {
     return subject_key_identifier_;
   }

   // Returns a map of all the extensions in the certificate.
   const ExtensionsMap &extensions() const { return extensions_; }

   // Gets the value for extension matching |extension_oid|. Returns false if the
   // extension is not present.
   bool GetExtension(der::Input extension_oid,
                     ParsedExtension *parsed_extension) const;

  private:
   // The backing store for the certificate data.
   bssl::UniquePtr<CRYPTO_BUFFER> cert_data_;

   // Points to the raw certificate DER.
   der::Input cert_;

   der::Input tbs_certificate_tlv_;
   der::Input signature_algorithm_tlv_;
   der::BitString signature_value_;
   ParsedTbsCertificate tbs_;

   // The signatureAlgorithm from the Certificate.
   std::optional<SignatureAlgorithm> signature_algorithm_;

   // Normalized DER-encoded Subject (not including outer Sequence tag).
   std::string normalized_subject_;
   // Normalized DER-encoded Issuer (not including outer Sequence tag).
   std::string normalized_issuer_;

   // BasicConstraints extension.
   bool has_basic_constraints_ = false;
   ParsedBasicConstraints basic_constraints_;

   // KeyUsage extension.
   bool has_key_usage_ = false;
   der::BitString key_usage_;

   // ExtendedKeyUsage extension.
   bool has_extended_key_usage_ = false;
   std::vector<der::Input> extended_key_usage_;

   // Raw SubjectAltName extension.
   ParsedExtension subject_alt_names_extension_;
   // Parsed SubjectAltName extension.
   std::unique_ptr<GeneralNames> subject_alt_names_;

   // NameConstraints extension.
   std::unique_ptr<NameConstraints> name_constraints_;

   // AuthorityInfoAccess extension.
   bool has_authority_info_access_ = false;
   ParsedExtension authority_info_access_extension_;
   // CaIssuers and Ocsp URIs parsed from the AuthorityInfoAccess extension. Note
   // that the AuthorityInfoAccess may have contained other AccessDescriptions
   // which are not represented here.
   std::vector<std::string_view> ca_issuers_uris_;
   std::vector<std::string_view> ocsp_uris_;

   // Policies extension. This list will already have been checked for
   // duplicates.
   bool has_policy_oids_ = false;
   std::vector<der::Input> policy_oids_;

   // Policy constraints extension.
   bool has_policy_constraints_ = false;
   ParsedPolicyConstraints policy_constraints_;

   // Policy mappings extension.
   bool has_policy_mappings_ = false;
   std::vector<ParsedPolicyMapping> policy_mappings_;

   // Inhibit Any Policy extension.
   std::optional<uint8_t> inhibit_any_policy_;

   // AuthorityKeyIdentifier extension.
   std::optional<ParsedAuthorityKeyIdentifier> authority_key_identifier_;

   // SubjectKeyIdentifier extension.
   std::optional<der::Input> subject_key_identifier_;

   // All of the extensions.
   ExtensionsMap extensions_;
 };

 }  // namespace bssl

 #endif  // BSSL_PKI_PARSED_CERTIFICATE_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_PARSED_CERTIFICATE_H_
	#define BSSL_PKI_PARSED_CERTIFICATE_H_

	#include <map>
	#include <memory>
	#include <optional>
	#include <vector>

	#include <openssl/base.h>

	#include "certificate_policies.h"
	#include "input.h"
	#include "parse_certificate.h"
	#include "signature_algorithm.h"

	namespace bssl {

	struct GeneralNames;
	class NameConstraints;
	class ParsedCertificate;
	class CertErrors;

	using ParsedCertificateList =
	std::vector<std::shared_ptr<const ParsedCertificate>>;

	// Represents an X.509 certificate, including Certificate, TBSCertificate, and
	// standard extensions.
	// Creating a ParsedCertificate does not completely parse and validate the
	// certificate data. Presence of a member in this class implies the DER was
	// parsed successfully to that level, but does not imply the contents of that
	// member are valid, unless otherwise specified. See the documentation for each
	// member or the documentation of the type it returns.
	class OPENSSL_EXPORT ParsedCertificate {
	private:
	// Used to make constructors private while still being compatible with
	// \|std::make_shared\|.
	class PrivateConstructor {
	private:
	friend ParsedCertificate;
	PrivateConstructor() = default;
	};

	public:
	~ParsedCertificate();
	// Map from OID to ParsedExtension.
	using ExtensionsMap = std::map<der::Input, ParsedExtension>;

	// Creates a ParsedCertificate given a DER-encoded Certificate. Returns
	// nullptr on failure. Failure will occur if the standard certificate fields
	// and supported extensions cannot be parsed.
	// On either success or failure, if \|errors\| is non-null it may have error
	// information added to it.
	static std::shared_ptr<const ParsedCertificate> Create(
	bssl::UniquePtr<CRYPTO_BUFFER> cert_data,
	const ParseCertificateOptions &options, CertErrors *errors);

	// Creates a ParsedCertificate by copying the provided \|data\|, and appends it
	// to \|chain\|. Returns true if the certificate was successfully parsed and
	// added. If false is return, \|chain\| is unmodified.
	//
	// On either success or failure, if \|errors\| is non-null it may have error
	// information added to it.
	static bool CreateAndAddToVector(
	bssl::UniquePtr<CRYPTO_BUFFER> cert_data,
	const ParseCertificateOptions &options,
	std::vector<std::shared_ptr<const bssl::ParsedCertificate>> *chain,
	CertErrors *errors);

	explicit ParsedCertificate(PrivateConstructor);

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

	// Returns the DER-encoded certificate data for this cert.
	der::Input der_cert() const { return cert_; }

	// Returns the CRYPTO_BUFFER backing this object.
	CRYPTO_BUFFER *cert_buffer() const { return cert_data_.get(); }

	// Accessors for raw fields of the Certificate.
	der::Input tbs_certificate_tlv() const { return tbs_certificate_tlv_; }

	der::Input signature_algorithm_tlv() const {
	return signature_algorithm_tlv_;
	}

	const der::BitString &signature_value() const { return signature_value_; }

	// Accessor for struct containing raw fields of the TbsCertificate.
	const ParsedTbsCertificate &tbs() const { return tbs_; }

	// Returns the signatureAlgorithm of the Certificate (not the tbsCertificate).
	// If the signature algorithm is unknown/unsupported, this returns nullopt.
	std::optional<SignatureAlgorithm> signature_algorithm() const {
	return signature_algorithm_;
	}

	// Returns the DER-encoded raw subject value (including the outer sequence
	// tag). This is guaranteed to be valid DER, though the contents of unhandled
	// string types are treated as raw bytes.
	der::Input subject_tlv() const { return tbs_.subject_tlv; }
	// Returns the DER-encoded normalized subject value (not including outer
	// Sequence tag). This is guaranteed to be valid DER, though the contents of
	// unhandled string types are treated as raw bytes.
	der::Input normalized_subject() const {
	return der::Input(normalized_subject_);
	}
	// Returns the DER-encoded raw issuer value (including the outer sequence
	// tag). This is guaranteed to be valid DER, though the contents of unhandled
	// string types are treated as raw bytes.
	der::Input issuer_tlv() const { return tbs_.issuer_tlv; }
	// Returns the DER-encoded normalized issuer value (not including outer
	// Sequence tag). This is guaranteed to be valid DER, though the contents of
	// unhandled string types are treated as raw bytes.
	der::Input normalized_issuer() const {
	return der::Input(normalized_issuer_);
	}

	// Returns true if the certificate has a BasicConstraints extension.
	bool has_basic_constraints() const { return has_basic_constraints_; }

	// Returns the ParsedBasicConstraints struct. Caller must check
	// has_basic_constraints() before accessing this.
	const ParsedBasicConstraints &basic_constraints() const {
	BSSL_CHECK(has_basic_constraints_);
	return basic_constraints_;
	}

	// Returns true if the certificate has a KeyUsage extension.
	bool has_key_usage() const { return has_key_usage_; }

	// Returns the KeyUsage BitString. Caller must check
	// has_key_usage() before accessing this.
	const der::BitString &key_usage() const {
	BSSL_CHECK(has_key_usage_);
	return key_usage_;
	}

	// Returns true if the certificate has a ExtendedKeyUsage extension.
	bool has_extended_key_usage() const { return has_extended_key_usage_; }

	// Returns the ExtendedKeyUsage key purpose OIDs. Caller must check
	// has_extended_key_usage() before accessing this.
	const std::vector<der::Input> &extended_key_usage() const {
	BSSL_CHECK(has_extended_key_usage_);
	return extended_key_usage_;
	}

	// Returns true if the certificate has a SubjectAltName extension.
	bool has_subject_alt_names() const { return subject_alt_names_ != nullptr; }

	// Returns the ParsedExtension struct for the SubjectAltName extension.
	// If the cert did not have a SubjectAltName extension, this will be a
	// default-initialized ParsedExtension struct.
	const ParsedExtension &subject_alt_names_extension() const {
	return subject_alt_names_extension_;
	}

	// Returns the GeneralNames class parsed from SubjectAltName extension, or
	// nullptr if no SubjectAltName extension was present.
	const GeneralNames *subject_alt_names() const {
	return subject_alt_names_.get();
	}

	// Returns true if the certificate has a NameConstraints extension.
	bool has_name_constraints() const { return name_constraints_ != nullptr; }

	// Returns the parsed NameConstraints extension. Must not be called if
	// has_name_constraints() is false.
	const NameConstraints &name_constraints() const {
	BSSL_CHECK(name_constraints_);
	return *name_constraints_;
	}

	// Returns true if the certificate has an AuthorityInfoAccess extension.
	bool has_authority_info_access() const { return has_authority_info_access_; }

	// Returns the ParsedExtension struct for the AuthorityInfoAccess extension.
	const ParsedExtension &authority_info_access_extension() const {
	return authority_info_access_extension_;
	}

	// Returns any caIssuers URIs from the AuthorityInfoAccess extension.
	const std::vector<std::string_view> &ca_issuers_uris() const {
	return ca_issuers_uris_;
	}

	// Returns any OCSP URIs from the AuthorityInfoAccess extension.
	const std::vector<std::string_view> &ocsp_uris() const { return ocsp_uris_; }

	// Returns true if the certificate has a Policies extension.
	bool has_policy_oids() const { return has_policy_oids_; }

	// Returns the policy OIDs. Caller must check has_policy_oids() before
	// accessing this.
	const std::vector<der::Input> &policy_oids() const {
	BSSL_CHECK(has_policy_oids());
	return policy_oids_;
	}

	// Returns true if the certificate has a PolicyConstraints extension.
	bool has_policy_constraints() const { return has_policy_constraints_; }

	// Returns the ParsedPolicyConstraints struct. Caller must check
	// has_policy_constraints() before accessing this.
	const ParsedPolicyConstraints &policy_constraints() const {
	BSSL_CHECK(has_policy_constraints_);
	return policy_constraints_;
	}

	// Returns true if the certificate has a PolicyMappings extension.
	bool has_policy_mappings() const { return has_policy_mappings_; }

	// Returns the PolicyMappings extension. Caller must check
	// has_policy_mappings() before accessing this.
	const std::vector<ParsedPolicyMapping> &policy_mappings() const {
	BSSL_CHECK(has_policy_mappings_);
	return policy_mappings_;
	}

	// Returns the Inhibit Any Policy extension.
	const std::optional<uint8_t> &inhibit_any_policy() const {
	return inhibit_any_policy_;
	}

	// Returns the AuthorityKeyIdentifier extension, or nullopt if there wasn't
	// one.
	const std::optional<ParsedAuthorityKeyIdentifier> &authority_key_identifier()
	const {
	return authority_key_identifier_;
	}

	// Returns the SubjectKeyIdentifier extension, or nullopt if there wasn't
	// one.
	const std::optional<der::Input> &subject_key_identifier() const {
	return subject_key_identifier_;
	}

	// Returns a map of all the extensions in the certificate.
	const ExtensionsMap &extensions() const { return extensions_; }

	// Gets the value for extension matching \|extension_oid\|. Returns false if the
	// extension is not present.
	bool GetExtension(der::Input extension_oid,
	ParsedExtension *parsed_extension) const;

	private:
	// The backing store for the certificate data.
	bssl::UniquePtr<CRYPTO_BUFFER> cert_data_;

	// Points to the raw certificate DER.
	der::Input cert_;

	der::Input tbs_certificate_tlv_;
	der::Input signature_algorithm_tlv_;
	der::BitString signature_value_;
	ParsedTbsCertificate tbs_;

	// The signatureAlgorithm from the Certificate.
	std::optional<SignatureAlgorithm> signature_algorithm_;

	// Normalized DER-encoded Subject (not including outer Sequence tag).
	std::string normalized_subject_;
	// Normalized DER-encoded Issuer (not including outer Sequence tag).
	std::string normalized_issuer_;

	// BasicConstraints extension.
	bool has_basic_constraints_ = false;
	ParsedBasicConstraints basic_constraints_;

	// KeyUsage extension.
	bool has_key_usage_ = false;
	der::BitString key_usage_;

	// ExtendedKeyUsage extension.
	bool has_extended_key_usage_ = false;
	std::vector<der::Input> extended_key_usage_;

	// Raw SubjectAltName extension.
	ParsedExtension subject_alt_names_extension_;
	// Parsed SubjectAltName extension.
	std::unique_ptr<GeneralNames> subject_alt_names_;

	// NameConstraints extension.
	std::unique_ptr<NameConstraints> name_constraints_;

	// AuthorityInfoAccess extension.
	bool has_authority_info_access_ = false;
	ParsedExtension authority_info_access_extension_;
	// CaIssuers and Ocsp URIs parsed from the AuthorityInfoAccess extension. Note
	// that the AuthorityInfoAccess may have contained other AccessDescriptions
	// which are not represented here.
	std::vector<std::string_view> ca_issuers_uris_;
	std::vector<std::string_view> ocsp_uris_;

	// Policies extension. This list will already have been checked for
	// duplicates.
	bool has_policy_oids_ = false;
	std::vector<der::Input> policy_oids_;

	// Policy constraints extension.
	bool has_policy_constraints_ = false;
	ParsedPolicyConstraints policy_constraints_;

	// Policy mappings extension.
	bool has_policy_mappings_ = false;
	std::vector<ParsedPolicyMapping> policy_mappings_;

	// Inhibit Any Policy extension.
	std::optional<uint8_t> inhibit_any_policy_;

	// AuthorityKeyIdentifier extension.
	std::optional<ParsedAuthorityKeyIdentifier> authority_key_identifier_;

	// SubjectKeyIdentifier extension.
	std::optional<der::Input> subject_key_identifier_;

	// All of the extensions.
	ExtensionsMap extensions_;
	};

	} // namespace bssl

	#endif // BSSL_PKI_PARSED_CERTIFICATE_H_