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/*
* Copyright (C) 2007-2009 Martin Willi
* Hochschule fuer Technik Rapperswil
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation; either version 2 of the License, or (at your
* option) any later version. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*/
/**
* @defgroup credential_manager credential_manager
* @{ @ingroup credentials
*/
#ifndef CREDENTIAL_MANAGER_H_
#define CREDENTIAL_MANAGER_H_
typedef struct credential_manager_t credential_manager_t;
typedef enum credential_hook_type_t credential_hook_type_t;
#include <utils/identification.h>
#include <collections/enumerator.h>
#include <credentials/auth_cfg.h>
#include <credentials/credential_set.h>
#include <credentials/keys/private_key.h>
#include <credentials/keys/shared_key.h>
#include <credentials/certificates/certificate.h>
#include <credentials/cert_validator.h>
/**
* Type of a credential hook error/event.
*/
enum credential_hook_type_t {
/** The certificate has expired (or is not yet valid) */
CRED_HOOK_EXPIRED,
/** The certificate has been revoked */
CRED_HOOK_REVOKED,
/** Checking certificate revocation failed. This does not necessarily mean
* the certificate is rejected, just that revocation checking failed. */
CRED_HOOK_VALIDATION_FAILED,
/** No trusted issuer certificate has been found for this certificate */
CRED_HOOK_NO_ISSUER,
/** Encountered a self-signed (root) certificate, but it is not trusted */
CRED_HOOK_UNTRUSTED_ROOT,
/** Maximum trust chain length exceeded for certificate */
CRED_HOOK_EXCEEDED_PATH_LEN,
/** The certificate violates some other kind of policy and gets rejected */
CRED_HOOK_POLICY_VIOLATION,
};
/**
* Hook function to invoke on certificate validation errors.
*
* @param data user data supplied during hook registration
* @param type type of validation error/event
* @param cert associated certificate
*/
typedef void (*credential_hook_t)(void *data, credential_hook_type_t type,
certificate_t *cert);
/**
* Manages credentials using credential_sets.
*
* The credential manager is the entry point of the credential framework. It
* uses so called "sets" to access credentials in a modular fashion. These
* are implemented through the credential_set_t interface.
* The manager additionally does trust chain verification and trust status
* caching. A set may call the managers methods if it needs credentials itself.
* The manager uses recursive locking.
*
* @verbatim
+-------+ +----------------+
| A | | | +------------------+
| u | -----> | | ------> | +------------------+
| t | | credential- | | | +------------------+
| h | -----> | manager | ------> +--| | credential- | => IPC
| e | | | +--| sets |
| n | +--> | | ------> +------------------+
| t | | | | |
| i | | | | |
| c | | +----------------+ |
| a | | |
| t | +----------------------------------------------+
| o | may be recursive
| r |
+-------+
@endverbatim
*
* The credential manager uses rwlocks for performance reasons. Credential
* sets must be fully thread-safe.
*/
struct credential_manager_t {
/**
* Create an enumerator over all certificates.
*
* @param cert kind of certificate
* @param key kind of key in certificate
* @param id subject this certificate belongs to
* @param trusted TRUE to list trusted certificates only
* @return enumerator over the certificates
*/
enumerator_t *(*create_cert_enumerator)(credential_manager_t *this,
certificate_type_t cert, key_type_t key,
identification_t *id, bool trusted);
/**
* Create an enumerator over all shared keys.
*
* The enumerator enumerates over:
* shared_key_t*, id_match_t me, id_match_t other
* But must accept values for the id_matches.
*
* @param type kind of requested shared key
* @param first first subject between key is shared
* @param second second subject between key is shared
* @return enumerator over (shared_key_t*,id_match_t,id_match_t)
*/
enumerator_t *(*create_shared_enumerator)(credential_manager_t *this,
shared_key_type_t type,
identification_t *first, identification_t *second);
/**
* Create an enumerator over all Certificate Distribution Points.
*
* @param type kind of certificate the point distributes
* @param id identification of the distributed certificate
* @return enumerator of CDPs as char*
*/
enumerator_t *(*create_cdp_enumerator)(credential_manager_t *this,
certificate_type_t type, identification_t *id);
/**
* Get a trusted or untrusted certificate.
*
* @param cert kind of certificate
* @param key kind of key in certificate
* @param id subject this certificate belongs to
* @param trusted TRUE to get a trusted certificate only
* @return certificate, if found, NULL otherwise
*/
certificate_t *(*get_cert)(credential_manager_t *this,
certificate_type_t cert, key_type_t key,
identification_t *id, bool trusted);
/**
* Get the best matching shared key for two IDs.
*
* @param type kind of requested shared key
* @param me own identity
* @param other peer identity
* @return shared_key_t, NULL if none found
*/
shared_key_t *(*get_shared)(credential_manager_t *this, shared_key_type_t type,
identification_t *me, identification_t *other);
/**
* Get a private key to create a signature.
*
* The get_private() method gets a secret private key identified by either
* the keyid itself or an id the key belongs to.
* The auth parameter contains additional information, such as recipients
* trusted CA certs. Auth gets filled with subject and CA certificates
* needed to validate a created signature.
*
* @param type type of the key to get
* @param id identification the key belongs to
* @param auth auth config, including trusted CA certificates
* @return private_key_t, NULL if none found
*/
private_key_t* (*get_private)(credential_manager_t *this, key_type_t type,
identification_t *id, auth_cfg_t *auth);
/**
* Create an enumerator over trusted certificates.
*
* This method creates an enumerator over trusted certificates. The auth
* parameter (if given) receives the trustchain used to validate
* the certificate. The resulting enumerator enumerates over
* certificate_t*, auth_cfg_t*.
* If online is set, revocations are checked online for the whole
* trustchain.
*
* @param type type of the key we want a certificate for
* @param id subject of the certificate
* @param online whether revocations should be checked online
* @return enumerator
*/
enumerator_t* (*create_trusted_enumerator)(credential_manager_t *this,
key_type_t type, identification_t *id, bool online);
/**
* Create an enumerator over trusted public keys.
*
* This method creates an enumerator over trusted public keys to verify a
* signature created by id. The auth parameter contains additional
* authentication infos, e.g. peer and intermediate certificates.
* The resulting enumerator enumerates over public_key_t *, auth_cfg_t *,
* where the auth config helper contains rules for constraint checks.
* This function is very similar to create_trusted_enumerator(), but
* gets public keys directly.
*
* @param type type of the key to get
* @param id owner of the key, signer of the signature
* @param auth authentication infos
* @return enumerator
*/
enumerator_t* (*create_public_enumerator)(credential_manager_t *this,
key_type_t type, identification_t *id, auth_cfg_t *auth);
/**
* Cache a certificate by invoking cache_cert() on all registered sets.
*
* @param cert certificate to cache
*/
void (*cache_cert)(credential_manager_t *this, certificate_t *cert);
/**
* Flush the certificate cache.
*
* Only the managers local cache is flushed, but not the sets cache filled
* by the cache_cert() method.
*
* @param type type of certificate to flush, or CERT_ANY
*/
void (*flush_cache)(credential_manager_t *this, certificate_type_t type);
/**
* Check if a given subject certificate is issued by an issuer certificate.
*
* This operation does signature verification using the credential
* manager's cache to speed up the operation.
*
* @param subject subject certificate to check
* @param issuer issuer certificate that potentially has signed subject
* @param scheme receives used signature scheme, if given
* @return TRUE if issuer signed subject
*/
bool (*issued_by)(credential_manager_t *this,
certificate_t *subject, certificate_t *issuer,
signature_scheme_t *scheme);
/**
* Register a credential set to the manager.
*
* @param set set to register
*/
void (*add_set)(credential_manager_t *this, credential_set_t *set);
/**
* Unregister a credential set from the manager.
*
* @param set set to unregister
*/
void (*remove_set)(credential_manager_t *this, credential_set_t *set);
/**
* Register a thread local credential set to the manager.
*
* To add a credential set for the current trustchain verification
* operation, sets may be added for the calling thread only. This
* does not require a write lock and is therefore a much cheaper
* operation.
* The exclusive option allows to disable all other credential sets
* until the set is deregistered.
*
* @param set set to register
* @param exclusive TRUE to disable all other sets for this thread
*/
void (*add_local_set)(credential_manager_t *this, credential_set_t *set,
bool exclusive);
/**
* Unregister a thread local credential set from the manager.
*
* @param set set to unregister
*/
void (*remove_local_set)(credential_manager_t *this, credential_set_t *set);
/**
* Register a certificate validator to the manager.
*
* @param vdtr validator to register
*/
void (*add_validator)(credential_manager_t *this, cert_validator_t *vdtr);
/**
* Remove a certificate validator from the manager.
*
* @param vdtr validator to unregister
*/
void (*remove_validator)(credential_manager_t *this, cert_validator_t *vdtr);
/**
* Set a hook to call on certain credential validation errors.
*
* @param hook hook to register, NULL to unregister
* @param data data to pass to hook
*/
void (*set_hook)(credential_manager_t *this, credential_hook_t hook,
void *data);
/**
* Call the registered credential hook, if any.
*
* While hooks are usually called by the credential manager itself, some
* validator plugins might raise hooks as well if they consider certificates
* invalid.
*
* @param type type of the event
* @param cert associated certificate
*/
void (*call_hook)(credential_manager_t *this, credential_hook_type_t type,
certificate_t *cert);
/**
* Destroy a credential_manager instance.
*/
void (*destroy)(credential_manager_t *this);
};
/**
* Create a credential_manager instance.
*/
credential_manager_t *credential_manager_create();
#endif /** CREDENTIAL_MANAGER_H_ @}*/
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