src/include/openssl/pki/verify_error.h - third_party/boringssl - Git at Google

 /* Copyright (c) 2024, Google Inc.
  *
  * Permission to use, copy, modify, and/or distribute this software for any
  * purpose with or without fee is hereby granted, provided that the above
  * copyright notice and this permission notice appear in all copies.
  *
  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
  * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
  * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
  * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */

 #if !defined(OPENSSL_HEADER_BSSL_PKI_VERIFY_ERROR_H_) && defined(__cplusplus)
 #define OPENSSL_HEADER_BSSL_PKI_VERIFY_ERROR_H_

 #include <string>
 #include <string_view>

 namespace bssl {

 // VerifyError describes certificate chain validation result.
 class OPENSSL_EXPORT VerifyError {
  public:
   VerifyError() = default;
   VerifyError(const VerifyError &other) = default;
   VerifyError &operator=(const VerifyError &other) = default;

   // Code is the representation of a single error that we could
   // find.
   enum class StatusCode {
     // PATH_VERIFIED means there were no errors, the certificate chain is valid.
     PATH_VERIFIED,

     // CERTIFICATE_INVALID_SIGNATURE means that the certificate's signature
     // failed to verify.
     CERTIFICATE_INVALID_SIGNATURE,

     // CERTIFICATE_UNSUPPORTED_KEY means that the certificate's key type and/or
     // size is not supported.
     CERTIFICATE_UNSUPPORTED_KEY,

     // CERTIFICATE_UNSUPPORTED_SIGNATURE ALGORITHM means that the signature
     // algorithm is not supported.
     CERTIFICATE_UNSUPPORTED_SIGNATURE_ALGORITHM,

     // CERTIFICATE_REVOKED means that the certificate has been revoked.
     CERTIFICATE_REVOKED,

     // CERTIFICATE_NO_REVOCATION_MECHANISM means that revocation checking was
     // required and no revocation mechanism was given for the certificate
     CERTIFICATE_NO_REVOCATION_MECHANISM,

     // CERTIFICATE_UNABLE_TO_CHECK_REVOCATION means that revocation checking was
     // required and we were unable to check if the certificate was revoked via
     // any revocation mechanism.
     CERTIFICATE_UNABLE_TO_CHECK_REVOCATION,

     // CERTIFICATE_EXPIRED means that the validation time is after the
     // certificate's |notAfter| timestamp.
     CERTIFICATE_EXPIRED,

     // CERTIFICATE_NOT_YET_VALID means that the validation time is before the
     // certificate's |notBefore| timestamp.
     CERTIFICATE_NOT_YET_VALID,

     // CERTIFICATE_NO_MATCHING_EKU means that the certificate's EKU does not
     // allow the certificate to be used for the intended purpose.
     CERTIFICATE_NO_MATCHING_EKU,

     // CERTIFICATE_INVALID means that the certificate was structurally
     // invalid, or invalid for some different reason than the above.
     CERTIFICATE_INVALID,

     // PATH_NOT_FOUND means that no path could be found from the leaf
     // certificate to any trust anchor.
     PATH_NOT_FOUND,

     // PATH_ITERATION_COUNT_EXCEEDED means that the iteration limit for path
     // building  was hit and so the search for a valid path terminated early.
     PATH_ITERATION_COUNT_EXCEEDED,

     // PATH_DEADLINE_EXCEEDED means that the time limit for path building
     // was hit and so the search for a valid path terminated early.
     PATH_DEADLINE_EXCEEDED,

     // PATH_DEPTH_LIMIT_REACHED means that path building was not able to find a
     // path within the configured depth limit for verification.
     PATH_DEPTH_LIMIT_REACHED,

     // PATH_MULTIPLE_ERRORS indicates that there are multiple fatal
     // errors present on the certificate chain, so that a single error could
     // not be reported.
     PATH_MULTIPLE_ERRORS,

     // VERIFICATION_FAILURE means that something is wrong with the returned path
     // that is not specific to a single certificate. There are many possible
     // reasons for a verification to fail.
     VERIFICATION_FAILURE,
   };

   VerifyError(StatusCode code, ptrdiff_t offset, std::string diagnostic);

   // Code returns the indicated error code for the certificate path.
   StatusCode Code() const;

   // Index returns the certificate in the chain for which the error first
   // occured, starting with 0 for the leaf certificate. Later certificates in
   // the chain may also exhibit the same error. If the error is not specific to
   // a certificate, -1 is returned.
   ptrdiff_t Index() const;

   // DiagnosticString returns a string of diagnostic information related to this
   // verification attempt. The string aims to be useful to debugging, but it is
   // not stable and may not be processed programmatically or asserted on in
   // tests. The string may be empty if no diagnostic information was available.
   //
   // The DiagnosticString is specifically not guaranteed to be unchanging for
   // any given error code, as the diagnostic error message can contain
   // information specific to the verification attempt and chain presented, due
   // to there being multiple possible ways for, as an example, a certificate to
   // be invalid, or that we are unable to build a path to a trust anchor.
   //
   // Needless to say, one should not attempt to parse the string that is
   // returned.
   const std::string &DiagnosticString() const;

  private:
   ptrdiff_t offset_ = -1;
   StatusCode code_ = StatusCode::VERIFICATION_FAILURE;
   std::string diagnostic_;
 };

 } // namespace bssl

 #endif  // OPENSSL_HEADER_BSSL_PKI_VERIFY_ERROR_H_
	/* Copyright (c) 2024, Google Inc.
	*
	* Permission to use, copy, modify, and/or distribute this software for any
	* purpose with or without fee is hereby granted, provided that the above
	* copyright notice and this permission notice appear in all copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
	* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
	* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
	* SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
	* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
	* OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
	* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */

	#if !defined(OPENSSL_HEADER_BSSL_PKI_VERIFY_ERROR_H_) && defined(__cplusplus)
	#define OPENSSL_HEADER_BSSL_PKI_VERIFY_ERROR_H_

	#include <string>
	#include <string_view>

	namespace bssl {

	// VerifyError describes certificate chain validation result.
	class OPENSSL_EXPORT VerifyError {
	public:
	VerifyError() = default;
	VerifyError(const VerifyError &other) = default;
	VerifyError &operator=(const VerifyError &other) = default;

	// Code is the representation of a single error that we could
	// find.
	enum class StatusCode {
	// PATH_VERIFIED means there were no errors, the certificate chain is valid.
	PATH_VERIFIED,

	// CERTIFICATE_INVALID_SIGNATURE means that the certificate's signature
	// failed to verify.
	CERTIFICATE_INVALID_SIGNATURE,

	// CERTIFICATE_UNSUPPORTED_KEY means that the certificate's key type and/or
	// size is not supported.
	CERTIFICATE_UNSUPPORTED_KEY,

	// CERTIFICATE_UNSUPPORTED_SIGNATURE ALGORITHM means that the signature
	// algorithm is not supported.
	CERTIFICATE_UNSUPPORTED_SIGNATURE_ALGORITHM,

	// CERTIFICATE_REVOKED means that the certificate has been revoked.
	CERTIFICATE_REVOKED,

	// CERTIFICATE_NO_REVOCATION_MECHANISM means that revocation checking was
	// required and no revocation mechanism was given for the certificate
	CERTIFICATE_NO_REVOCATION_MECHANISM,

	// CERTIFICATE_UNABLE_TO_CHECK_REVOCATION means that revocation checking was
	// required and we were unable to check if the certificate was revoked via
	// any revocation mechanism.
	CERTIFICATE_UNABLE_TO_CHECK_REVOCATION,

	// CERTIFICATE_EXPIRED means that the validation time is after the
	// certificate's \|notAfter\| timestamp.
	CERTIFICATE_EXPIRED,

	// CERTIFICATE_NOT_YET_VALID means that the validation time is before the
	// certificate's \|notBefore\| timestamp.
	CERTIFICATE_NOT_YET_VALID,

	// CERTIFICATE_NO_MATCHING_EKU means that the certificate's EKU does not
	// allow the certificate to be used for the intended purpose.
	CERTIFICATE_NO_MATCHING_EKU,

	// CERTIFICATE_INVALID means that the certificate was structurally
	// invalid, or invalid for some different reason than the above.
	CERTIFICATE_INVALID,

	// PATH_NOT_FOUND means that no path could be found from the leaf
	// certificate to any trust anchor.
	PATH_NOT_FOUND,

	// PATH_ITERATION_COUNT_EXCEEDED means that the iteration limit for path
	// building was hit and so the search for a valid path terminated early.
	PATH_ITERATION_COUNT_EXCEEDED,

	// PATH_DEADLINE_EXCEEDED means that the time limit for path building
	// was hit and so the search for a valid path terminated early.
	PATH_DEADLINE_EXCEEDED,

	// PATH_DEPTH_LIMIT_REACHED means that path building was not able to find a
	// path within the configured depth limit for verification.
	PATH_DEPTH_LIMIT_REACHED,

	// PATH_MULTIPLE_ERRORS indicates that there are multiple fatal
	// errors present on the certificate chain, so that a single error could
	// not be reported.
	PATH_MULTIPLE_ERRORS,

	// VERIFICATION_FAILURE means that something is wrong with the returned path
	// that is not specific to a single certificate. There are many possible
	// reasons for a verification to fail.
	VERIFICATION_FAILURE,
	};

	VerifyError(StatusCode code, ptrdiff_t offset, std::string diagnostic);

	// Code returns the indicated error code for the certificate path.
	StatusCode Code() const;

	// Index returns the certificate in the chain for which the error first
	// occured, starting with 0 for the leaf certificate. Later certificates in
	// the chain may also exhibit the same error. If the error is not specific to
	// a certificate, -1 is returned.
	ptrdiff_t Index() const;

	// DiagnosticString returns a string of diagnostic information related to this
	// verification attempt. The string aims to be useful to debugging, but it is
	// not stable and may not be processed programmatically or asserted on in
	// tests. The string may be empty if no diagnostic information was available.
	//
	// The DiagnosticString is specifically not guaranteed to be unchanging for
	// any given error code, as the diagnostic error message can contain
	// information specific to the verification attempt and chain presented, due
	// to there being multiple possible ways for, as an example, a certificate to
	// be invalid, or that we are unable to build a path to a trust anchor.
	//
	// Needless to say, one should not attempt to parse the string that is
	// returned.
	const std::string &DiagnosticString() const;

	private:
	ptrdiff_t offset_ = -1;
	StatusCode code_ = StatusCode::VERIFICATION_FAILURE;
	std::string diagnostic_;
	};

	} // namespace bssl

	#endif // OPENSSL_HEADER_BSSL_PKI_VERIFY_ERROR_H_