/* * X.509 Cert Path Validation * (C) 2010-2011 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_X509_CERT_PATH_VALIDATION_H_ #define BOTAN_X509_CERT_PATH_VALIDATION_H_ #include #include #include #include #include #include #include #if defined(BOTAN_TARGET_OS_HAS_THREADS) && defined(BOTAN_HAS_HTTP_UTIL) #define BOTAN_HAS_ONLINE_REVOCATION_CHECKS #endif namespace Botan { /** * This type represents the validation status of an entire certificate path. * There is one set of status codes for each certificate in the path. */ typedef std::vector> CertificatePathStatusCodes; /** * Specifies restrictions on the PKIX path validation */ class BOTAN_PUBLIC_API(2,0) Path_Validation_Restrictions final { public: /** * @param require_rev if true, revocation information is required * @param minimum_key_strength is the minimum strength (in terms of * operations, eg 80 means 2^80) of a signature. Signatures weaker than * this are rejected. If more than 80, SHA-1 signatures are also * rejected. If possible use at least setting 110. * * 80 bit strength requires 1024 bit RSA * 110 bit strength requires 2k bit RSA * 128 bit strength requires ~3k bit RSA or P-256 * @param ocsp_all_intermediates Make OCSP requests for all CAs as * well as end entity (if OCSP enabled in path validation request) */ Path_Validation_Restrictions(bool require_rev = false, size_t minimum_key_strength = 110, bool ocsp_all_intermediates = false); /** * @param require_rev if true, revocation information is required * @param minimum_key_strength is the minimum strength (in terms of * operations, eg 80 means 2^80) of a signature. Signatures * weaker than this are rejected. * @param ocsp_all_intermediates Make OCSP requests for all CAs as * well as end entity (if OCSP enabled in path validation request) * @param trusted_hashes a set of trusted hashes. Any signatures * created using a hash other than one of these will be * rejected. */ Path_Validation_Restrictions(bool require_rev, size_t minimum_key_strength, bool ocsp_all_intermediates, const std::set& trusted_hashes) : m_require_revocation_information(require_rev), m_ocsp_all_intermediates(ocsp_all_intermediates), m_trusted_hashes(trusted_hashes), m_minimum_key_strength(minimum_key_strength) {} /** * @return whether revocation information is required */ bool require_revocation_information() const { return m_require_revocation_information; } /** * @return whether all intermediate CAs should also be OCSPed. If false * then only end entity OCSP is required/requested. */ bool ocsp_all_intermediates() const { return m_ocsp_all_intermediates; } /** * @return trusted signature hash functions */ const std::set& trusted_hashes() const { return m_trusted_hashes; } /** * @return minimum required key strength */ size_t minimum_key_strength() const { return m_minimum_key_strength; } private: bool m_require_revocation_information; bool m_ocsp_all_intermediates; std::set m_trusted_hashes; size_t m_minimum_key_strength; }; /** * Represents the result of a PKIX path validation */ class BOTAN_PUBLIC_API(2,0) Path_Validation_Result final { public: typedef Certificate_Status_Code Code; /** * @return the set of hash functions you are implicitly * trusting by trusting this result. */ std::set trusted_hashes() const; /** * @return the trust root of the validation if successful * throws an exception if the validation failed */ const X509_Certificate& trust_root() const; /** * @return the full path from subject to trust root * This path may be empty */ const std::vector>& cert_path() const { return m_cert_path; } /** * @return true iff the validation was successful */ bool successful_validation() const; /** * @return true iff no warnings occured during validation */ bool no_warnings() const; /** * @return overall validation result code */ Certificate_Status_Code result() const { return m_overall; } /** * @return a set of status codes for each certificate in the chain */ const CertificatePathStatusCodes& all_statuses() const { return m_all_status; } /** * @return the subset of status codes that are warnings */ CertificatePathStatusCodes warnings() const; /** * @return string representation of the validation result */ std::string result_string() const; /** * @return string representation of the warnings */ std::string warnings_string() const; /** * @param code validation status code * @return corresponding validation status message */ static const char* status_string(Certificate_Status_Code code); /** * Create a Path_Validation_Result * @param status list of validation status codes * @param cert_chain the certificate chain that was validated */ Path_Validation_Result(CertificatePathStatusCodes status, std::vector>&& cert_chain); /** * Create a Path_Validation_Result * @param status validation status code */ explicit Path_Validation_Result(Certificate_Status_Code status) : m_overall(status) {} private: CertificatePathStatusCodes m_all_status; CertificatePathStatusCodes m_warnings; std::vector> m_cert_path; Certificate_Status_Code m_overall; }; /** * PKIX Path Validation * @param end_certs certificate chain to validate (with end entity certificate in end_certs[0]) * @param restrictions path validation restrictions * @param trusted_roots list of certificate stores that contain trusted certificates * @param hostname if not empty, compared against the DNS name in end_certs[0] * @param usage if not set to UNSPECIFIED, compared against the key usage in end_certs[0] * @param validation_time what reference time to use for validation * @param ocsp_timeout timeout for OCSP operations, 0 disables OCSP check * @param ocsp_resp additional OCSP responses to consider (eg from peer) * @return result of the path validation * note: when enabled, OCSP check is softfail by default: if the OCSP server is not * reachable, Path_Validation_Result::successful_validation() will return true. * Hardfail OCSP check can be achieve by also calling Path_Validation_Result::no_warnings(). */ Path_Validation_Result BOTAN_PUBLIC_API(2,0) x509_path_validate( const std::vector& end_certs, const Path_Validation_Restrictions& restrictions, const std::vector& trusted_roots, const std::string& hostname = "", Usage_Type usage = Usage_Type::UNSPECIFIED, std::chrono::system_clock::time_point validation_time = std::chrono::system_clock::now(), std::chrono::milliseconds ocsp_timeout = std::chrono::milliseconds(0), const std::vector>& ocsp_resp = {}); /** * PKIX Path Validation * @param end_cert certificate to validate * @param restrictions path validation restrictions * @param trusted_roots list of stores that contain trusted certificates * @param hostname if not empty, compared against the DNS name in end_cert * @param usage if not set to UNSPECIFIED, compared against the key usage in end_cert * @param validation_time what reference time to use for validation * @param ocsp_timeout timeout for OCSP operations, 0 disables OCSP check * @param ocsp_resp additional OCSP responses to consider (eg from peer) * @return result of the path validation */ Path_Validation_Result BOTAN_PUBLIC_API(2,0) x509_path_validate( const X509_Certificate& end_cert, const Path_Validation_Restrictions& restrictions, const std::vector& trusted_roots, const std::string& hostname = "", Usage_Type usage = Usage_Type::UNSPECIFIED, std::chrono::system_clock::time_point validation_time = std::chrono::system_clock::now(), std::chrono::milliseconds ocsp_timeout = std::chrono::milliseconds(0), const std::vector>& ocsp_resp = {}); /** * PKIX Path Validation * @param end_cert certificate to validate * @param restrictions path validation restrictions * @param store store that contains trusted certificates * @param hostname if not empty, compared against the DNS name in end_cert * @param usage if not set to UNSPECIFIED, compared against the key usage in end_cert * @param validation_time what reference time to use for validation * @param ocsp_timeout timeout for OCSP operations, 0 disables OCSP check * @param ocsp_resp additional OCSP responses to consider (eg from peer) * @return result of the path validation */ Path_Validation_Result BOTAN_PUBLIC_API(2,0) x509_path_validate( const X509_Certificate& end_cert, const Path_Validation_Restrictions& restrictions, const Certificate_Store& store, const std::string& hostname = "", Usage_Type usage = Usage_Type::UNSPECIFIED, std::chrono::system_clock::time_point validation_time = std::chrono::system_clock::now(), std::chrono::milliseconds ocsp_timeout = std::chrono::milliseconds(0), const std::vector>& ocsp_resp = {}); /** * PKIX Path Validation * @param end_certs certificate chain to validate * @param restrictions path validation restrictions * @param store store that contains trusted certificates * @param hostname if not empty, compared against the DNS name in end_certs[0] * @param usage if not set to UNSPECIFIED, compared against the key usage in end_certs[0] * @param validation_time what reference time to use for validation * @param ocsp_timeout timeout for OCSP operations, 0 disables OCSP check * @param ocsp_resp additional OCSP responses to consider (eg from peer) * @return result of the path validation */ Path_Validation_Result BOTAN_PUBLIC_API(2,0) x509_path_validate( const std::vector& end_certs, const Path_Validation_Restrictions& restrictions, const Certificate_Store& store, const std::string& hostname = "", Usage_Type usage = Usage_Type::UNSPECIFIED, std::chrono::system_clock::time_point validation_time = std::chrono::system_clock::now(), std::chrono::milliseconds ocsp_timeout = std::chrono::milliseconds(0), const std::vector>& ocsp_resp = {}); /** * namespace PKIX holds the building blocks that are called by x509_path_validate. * This allows custom validation logic to be written by applications and makes * for easier testing, but unless you're positive you know what you're doing you * probably want to just call x509_path_validate instead. */ namespace PKIX { Certificate_Status_Code build_all_certificate_paths(std::vector>>& cert_paths, const std::vector& trusted_certstores, const std::shared_ptr& end_entity, const std::vector>& end_entity_extra); /** * Build certificate path * @param cert_path_out output parameter, cert_path will be appended to this vector * @param trusted_certstores list of certificate stores that contain trusted certificates * @param end_entity the cert to be validated * @param end_entity_extra optional list of additional untrusted certs for path building * @return result of the path building operation (OK or error) */ Certificate_Status_Code BOTAN_PUBLIC_API(2,0) build_certificate_path(std::vector>& cert_path_out, const std::vector& trusted_certstores, const std::shared_ptr& end_entity, const std::vector>& end_entity_extra); /** * Check the certificate chain, but not any revocation data * * @param cert_path path built by build_certificate_path with OK result * @param ref_time whatever time you want to perform the validation * against (normally current system clock) * @param hostname the hostname * @param usage end entity usage checks * @param min_signature_algo_strength 80 or 110 typically * Note 80 allows 1024 bit RSA and SHA-1. 110 allows 2048 bit RSA and SHA-2. * Using 128 requires ECC (P-256) or ~3000 bit RSA keys. * @param trusted_hashes set of trusted hash functions, empty means accept any * hash we have an OID for * @return vector of results on per certificate in the path, each containing a set of * results. If all codes in the set are < Certificate_Status_Code::FIRST_ERROR_STATUS, * then the result for that certificate is successful. If all results are */ CertificatePathStatusCodes BOTAN_PUBLIC_API(2,0) check_chain(const std::vector>& cert_path, std::chrono::system_clock::time_point ref_time, const std::string& hostname, Usage_Type usage, size_t min_signature_algo_strength, const std::set& trusted_hashes); /** * Check OCSP responses for revocation information * @param cert_path path already validated by check_chain * @param ocsp_responses the OCSP responses to consider * @param certstores trusted roots * @param ref_time whatever time you want to perform the validation against * (normally current system clock) * @return revocation status */ CertificatePathStatusCodes BOTAN_PUBLIC_API(2,0) check_ocsp(const std::vector>& cert_path, const std::vector>& ocsp_responses, const std::vector& certstores, std::chrono::system_clock::time_point ref_time, std::chrono::seconds max_age = std::chrono::seconds::zero()); /** * Check CRLs for revocation information * @param cert_path path already validated by check_chain * @param crls the list of CRLs to check, it is assumed that crls[i] (if not null) * is the associated CRL for the subject in cert_path[i]. * @param ref_time whatever time you want to perform the validation against * (normally current system clock) * @return revocation status */ CertificatePathStatusCodes BOTAN_PUBLIC_API(2,0) check_crl(const std::vector>& cert_path, const std::vector>& crls, std::chrono::system_clock::time_point ref_time); /** * Check CRLs for revocation information * @param cert_path path already validated by check_chain * @param certstores a list of certificate stores to query for the CRL * @param ref_time whatever time you want to perform the validation against * (normally current system clock) * @return revocation status */ CertificatePathStatusCodes BOTAN_PUBLIC_API(2,0) check_crl(const std::vector>& cert_path, const std::vector& certstores, std::chrono::system_clock::time_point ref_time); #if defined(BOTAN_HAS_ONLINE_REVOCATION_CHECKS) /** * Check OCSP using online (HTTP) access. Current version creates a thread and * network connection per OCSP request made. * * @param cert_path path already validated by check_chain * @param trusted_certstores a list of certstores with trusted certs * @param ref_time whatever time you want to perform the validation against * (normally current system clock) * @param timeout for timing out the responses, though actually this function * may block for up to timeout*cert_path.size()*C for some small C. * @param ocsp_check_intermediate_CAs if true also performs OCSP on any intermediate * CA certificates. If false, only does OCSP on the end entity cert. * @return revocation status */ CertificatePathStatusCodes BOTAN_PUBLIC_API(2,0) check_ocsp_online(const std::vector>& cert_path, const std::vector& trusted_certstores, std::chrono::system_clock::time_point ref_time, std::chrono::milliseconds timeout, bool ocsp_check_intermediate_CAs); /** * Check CRL using online (HTTP) access. Current version creates a thread and * network connection per CRL access. * @param cert_path path already validated by check_chain * @param trusted_certstores a list of certstores with trusted certs * @param certstore_to_recv_crls optional (nullptr to disable), all CRLs * retreived will be saved to this cert store. * @param ref_time whatever time you want to perform the validation against * (normally current system clock) * @param timeout for timing out the responses, though actually this function * may block for up to timeout*cert_path.size()*C for some small C. * @return revocation status */ CertificatePathStatusCodes BOTAN_PUBLIC_API(2,0) check_crl_online(const std::vector>& cert_path, const std::vector& trusted_certstores, Certificate_Store_In_Memory* certstore_to_recv_crls, std::chrono::system_clock::time_point ref_time, std::chrono::milliseconds timeout); #endif /** * Find overall status (OK, error) of a validation * @param cert_status result of merge_revocation_status or check_chain */ Certificate_Status_Code BOTAN_PUBLIC_API(2,0) overall_status(const CertificatePathStatusCodes& cert_status); /** * Merge the results from CRL and/or OCSP checks into chain_status * @param chain_status the certificate status * @param crl_status results from check_crl * @param ocsp_status results from check_ocsp * @param require_rev_on_end_entity require valid CRL or OCSP on end-entity cert * @param require_rev_on_intermediates require valid CRL or OCSP on all intermediate certificates */ void BOTAN_PUBLIC_API(2,0) merge_revocation_status(CertificatePathStatusCodes& chain_status, const CertificatePathStatusCodes& crl_status, const CertificatePathStatusCodes& ocsp_status, bool require_rev_on_end_entity, bool require_rev_on_intermediates); } } #endif