/* * opensc.h: OpenSC library header file * * Copyright (C) 2001, 2002 Juha Yrjölä * 2005 The OpenSC project * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /** * @file src/libopensc/opensc.h * OpenSC library core header file */ #ifndef _OPENSC_H #define _OPENSC_H #include #ifdef HAVE_UNISTD_H #include #endif #ifdef __cplusplus extern "C" { #endif #include "common/simclist.h" #include "scconf/scconf.h" #include "libopensc/errors.h" #include "libopensc/types.h" #define SC_SEC_OPERATION_DECIPHER 0x0001 #define SC_SEC_OPERATION_SIGN 0x0002 #define SC_SEC_OPERATION_AUTHENTICATE 0x0003 /* sc_security_env flags */ #define SC_SEC_ENV_ALG_REF_PRESENT 0x0001 #define SC_SEC_ENV_FILE_REF_PRESENT 0x0002 #define SC_SEC_ENV_KEY_REF_PRESENT 0x0004 /* FIXME: the flag below is misleading */ #define SC_SEC_ENV_KEY_REF_ASYMMETRIC 0x0008 #define SC_SEC_ENV_ALG_PRESENT 0x0010 /* PK algorithms */ #define SC_ALGORITHM_RSA 0 #define SC_ALGORITHM_DSA 1 #define SC_ALGORITHM_EC 2 #define SC_ALGORITHM_GOSTR3410 3 /* Symmetric algorithms */ #define SC_ALGORITHM_DES 64 #define SC_ALGORITHM_3DES 65 #define SC_ALGORITHM_GOST 66 /* Hash algorithms */ #define SC_ALGORITHM_MD5 128 #define SC_ALGORITHM_SHA1 129 #define SC_ALGORITHM_GOSTR3411 130 /* Key derivation algorithms */ #define SC_ALGORITHM_PBKDF2 192 /* Key encryption algoprithms */ #define SC_ALGORITHM_PBES2 256 #define SC_ALGORITHM_ONBOARD_KEY_GEN 0x80000000 /* need usage = either sign or decrypt. keys with both? decrypt, emulate sign */ #define SC_ALGORITHM_NEED_USAGE 0x40000000 #define SC_ALGORITHM_SPECIFIC_FLAGS 0x0001FFFF #define SC_ALGORITHM_RSA_RAW 0x00000001 /* If the card is willing to produce a cryptogram padded with the following * methods, set these flags accordingly. */ #define SC_ALGORITHM_RSA_PADS 0x0000000E #define SC_ALGORITHM_RSA_PAD_NONE 0x00000000 #define SC_ALGORITHM_RSA_PAD_PKCS1 0x00000002 #define SC_ALGORITHM_RSA_PAD_ANSI 0x00000004 #define SC_ALGORITHM_RSA_PAD_ISO9796 0x00000008 /* If the card is willing to produce a cryptogram with the following * hash values, set these flags accordingly. */ #define SC_ALGORITHM_RSA_HASH_NONE 0x00000010 #define SC_ALGORITHM_RSA_HASH_SHA1 0x00000020 #define SC_ALGORITHM_RSA_HASH_MD5 0x00000040 #define SC_ALGORITHM_RSA_HASH_MD5_SHA1 0x00000080 #define SC_ALGORITHM_RSA_HASH_RIPEMD160 0x00000100 #define SC_ALGORITHM_RSA_HASH_SHA256 0x00000200 #define SC_ALGORITHM_RSA_HASH_SHA384 0x00000400 #define SC_ALGORITHM_RSA_HASH_SHA512 0x00000800 #define SC_ALGORITHM_RSA_HASH_SHA224 0x00001000 #define SC_ALGORITHM_RSA_HASHES 0x00001FE0 #define SC_ALGORITHM_GOSTR3410_RAW 0x00002000 #define SC_ALGORITHM_GOSTR3410_HASH_NONE 0x00004000 #define SC_ALGORITHM_GOSTR3410_HASH_GOSTR3411 0x00008000 #define SC_ALGORITHM_GOSTR3410_HASHES 0x00008000 /*TODO: -DEE Should the above be 0x0000E000 */ /* Or should the HASH_NONE be 0x00000010 and HASHES be 0x00008010 */ /* May need more bits if card can do more hashes */ /* TODO: -DEE Will overload RSA_HASHES with EC_HASHES */ /* Not clear if these need their own bits or not */ /* The PIV card does not support and hashes */ #define SC_ALGORITHM_ECDSA_RAW 0x00010000 #define SC_ALGORITHM_ECDSA_HASH_NONE SC_ALGORITHM_RSA_HASH_NONE #define SC_ALGORITHM_ECDSA_HASH_SHA1 SC_ALGORITHM_RSA_HASH_SHA1 #define SC_ALGORITHM_ECDSA_HASH_SHA224 SC_ALGORITHM_RSA_HASH_SHA224 #define SC_ALGORITHM_ECDSA_HASH_SHA256 SC_ALGORITHM_RSA_HASH_SHA256 #define SC_ALGORITHM_ECDSA_HASH_SHA384 SC_ALGORITHM_RSA_HASH_SHA384 #define SC_ALGORITHM_ECDSA_HASH_SHA512 SC_ALGORITHM_RSA_HASH_SHA512 #define SC_ALGORITHM_ECDSA_HASHES (SC_ALGORITHM_ECDSA_HASH_SHA1 | \ SC_ALGORITHM_ECDSA_HASH_SHA224 | \ SC_ALGORITHM_ECDSA_HASH_SHA256 | \ SC_ALGORITHM_ECDSA_HASH_SHA384 | \ SC_ALGORITHM_ECDSA_HASH_SHA512) /* define mask of all algorithms that can do raw */ #define SC_ALGORITHM_RAW_MASK (SC_ALGORITHM_RSA_RAW | SC_ALGORITHM_GOSTR3410_RAW | SC_ALGORITHM_ECDSA_RAW) /* extened algorithm bits for selected mechs */ #define SC_ALGORITHM_EXT_EC_F_P 0x00000001 #define SC_ALGORITHM_EXT_EC_F_2M 0x00000002 #define SC_ALGORITHM_EXT_EC_ECPARAMETERS 0x00000004 #define SC_ALGORITHM_EXT_EC_NAMEDCURVE 0x00000008 #define SC_ALGORITHM_EXT_EC_UNCOMPRESES 0x00000010 #define SC_ALGORITHM_EXT_EC_COMPRESS 0x00000020 /* Event masks for sc_wait_for_event() */ #define SC_EVENT_CARD_INSERTED 0x0001 #define SC_EVENT_CARD_REMOVED 0x0002 #define SC_EVENT_CARD_EVENTS SC_EVENT_CARD_INSERTED|SC_EVENT_CARD_REMOVED #define SC_EVENT_READER_ATTACHED 0x0004 #define SC_EVENT_READER_DETACHED 0x0008 #define SC_EVENT_READER_EVENTS SC_EVENT_READER_ATTACHED|SC_EVENT_READER_DETACHED struct sc_supported_algo_info { unsigned int reference; unsigned int mechanism; unsigned int operations; struct sc_object_id algo_id; unsigned int algo_ref; }; typedef struct sc_security_env { unsigned long flags; int operation; unsigned int algorithm, algorithm_flags; unsigned int algorithm_ref; struct sc_path file_ref; u8 key_ref[8]; size_t key_ref_len; struct sc_supported_algo_info supported_algos[SC_MAX_SUPPORTED_ALGORITHMS]; } sc_security_env_t; struct sc_algorithm_id { unsigned int algorithm; struct sc_object_id obj_id; void *params; }; struct sc_pbkdf2_params { u8 salt[16]; size_t salt_len; int iterations; size_t key_length; struct sc_algorithm_id hash_alg; }; struct sc_pbes2_params { struct sc_algorithm_id derivation_alg; struct sc_algorithm_id key_encr_alg; }; struct sc_ec_params { int type; u8 * der; size_t der_len; }; typedef struct sc_algorithm_info { unsigned int algorithm; unsigned int key_length; unsigned int flags; union { struct sc_rsa_info { unsigned long exponent; } _rsa; struct sc_ec_info { unsigned ext_flags; } _ec; } u; } sc_algorithm_info_t; typedef struct sc_app_info { char *label; struct sc_aid aid; struct sc_ddo ddo; struct sc_path path; int rec_nr; /* -1, if EF(DIR) is transparent */ } sc_app_info_t; struct sc_ef_atr { unsigned char card_service; unsigned char df_selection; size_t unit_size; unsigned char card_capabilities; struct sc_aid aid; unsigned char pre_issuing[6]; size_t pre_issuing_len; unsigned char issuer_data[16]; size_t issuer_data_len; struct sc_object_id allocation_oid; unsigned status; }; struct sc_card_cache { struct sc_path current_path; struct sc_file *current_ef; struct sc_file *current_df; int valid; }; #define SC_PROTO_T0 0x00000001 #define SC_PROTO_T1 0x00000002 #define SC_PROTO_RAW 0x00001000 #define SC_PROTO_ANY 0xFFFFFFFF struct sc_reader_driver { const char *name; const char *short_name; struct sc_reader_operations *ops; size_t max_send_size; /* Max Lc supported by the reader layer */ size_t max_recv_size; /* Mac Le supported by the reader layer */ void *dll; }; /* reader flags */ #define SC_READER_CARD_PRESENT 0x00000001 #define SC_READER_CARD_CHANGED 0x00000002 #define SC_READER_CARD_INUSE 0x00000004 #define SC_READER_CARD_EXCLUSIVE 0x00000008 #define SC_READER_HAS_WAITING_AREA 0x00000010 /* reader capabilities */ #define SC_READER_CAP_DISPLAY 0x00000001 #define SC_READER_CAP_PIN_PAD 0x00000002 typedef struct sc_reader { struct sc_context *ctx; const struct sc_reader_driver *driver; const struct sc_reader_operations *ops; void *drv_data; char *name; unsigned long flags, capabilities; unsigned int supported_protocols, active_protocol; struct sc_atr atr; struct _atr_info { u8 *hist_bytes; size_t hist_bytes_len; int Fi, f, Di, N; u8 FI, DI; } atr_info; } sc_reader_t; /* This will be the new interface for handling PIN commands. * It is supposed to support pin pads (with or without display) * attached to the reader. */ #define SC_PIN_CMD_VERIFY 0 #define SC_PIN_CMD_CHANGE 1 #define SC_PIN_CMD_UNBLOCK 2 #define SC_PIN_CMD_GET_INFO 3 #define SC_PIN_CMD_USE_PINPAD 0x0001 #define SC_PIN_CMD_NEED_PADDING 0x0002 #define SC_PIN_CMD_IMPLICIT_CHANGE 0x0004 #define SC_PIN_ENCODING_ASCII 0 #define SC_PIN_ENCODING_BCD 1 #define SC_PIN_ENCODING_GLP 2 /* Global Platform - Card Specification v2.0.1 */ struct sc_pin_cmd_pin { const char *prompt; /* Prompt to display */ const u8 *data; /* PIN, if given by the appliction */ int len; /* set to -1 to get pin from pin pad */ size_t min_length; /* min/max length of PIN */ size_t max_length; unsigned int encoding; /* ASCII-numeric, BCD, etc */ size_t pad_length; /* filled in by the card driver */ u8 pad_char; size_t offset; /* PIN offset in the APDU */ size_t length_offset; /* Effective PIN length offset in the APDU */ int max_tries; /* Used for signaling back from SC_PIN_CMD_GET_INFO */ int tries_left; /* Used for signaling back from SC_PIN_CMD_GET_INFO */ struct sc_acl_entry acls[SC_MAX_SDO_ACLS]; }; struct sc_pin_cmd_data { unsigned int cmd; unsigned int flags; unsigned int pin_type; /* usually SC_AC_CHV */ int pin_reference; struct sc_pin_cmd_pin pin1, pin2; struct sc_apdu *apdu; /* APDU of the PIN command */ }; struct sc_reader_operations { /* Called during sc_establish_context(), when the driver * is loaded */ int (*init)(struct sc_context *ctx); /* Called when the driver is being unloaded. finish() has to * release any resources. */ int (*finish)(struct sc_context *ctx); /* Called when library wish to detect new readers * should add only new readers. */ int (*detect_readers)(struct sc_context *ctx); int (*cancel)(struct sc_context *ctx); /* Called when releasing a reader. release() has to * deallocate the private data. Other fields will be * freed by OpenSC. */ int (*release)(struct sc_reader *reader); int (*detect_card_presence)(struct sc_reader *reader); int (*connect)(struct sc_reader *reader); int (*disconnect)(struct sc_reader *reader); int (*transmit)(struct sc_reader *reader, sc_apdu_t *apdu); int (*lock)(struct sc_reader *reader); int (*unlock)(struct sc_reader *reader); int (*set_protocol)(struct sc_reader *reader, unsigned int proto); /* Pin pad functions */ int (*display_message)(struct sc_reader *, const char *); int (*perform_verify)(struct sc_reader *, struct sc_pin_cmd_data *); /* Wait for an event */ int (*wait_for_event)(struct sc_context *ctx, unsigned int event_mask, sc_reader_t **event_reader, unsigned int *event, int timeout, void **reader_states); /* Reset a reader */ int (*reset)(struct sc_reader *, int); /* Used to pass in PC/SC handles to minidriver */ int (*use_reader)(struct sc_context *ctx, void *pcsc_context_handle, void *pcsc_card_handle); }; /* * Card flags * * Used to hint about card specific capabilities and algorithms * supported to the card driver. Used in sc_atr_table and * card_atr block structures in the configuration file. * * Unknown, card vendor specific values may exists, but must * not conflict with values defined here. All actions defined * by the flags must be handled by the card driver themselves. */ /* Mask for card vendor specific values */ #define SC_CARD_FLAG_VENDOR_MASK 0xFFFF0000 /* Hint SC_CARD_CAP_RNG */ #define SC_CARD_FLAG_RNG 0x00000002 /* * Card capabilities */ /* Card can handle large (> 256 bytes) buffers in calls to * read_binary, write_binary and update_binary; if not, * several successive calls to the corresponding function * is made. */ #define SC_CARD_CAP_APDU_EXT 0x00000001 /* Card has on-board random number source. */ #define SC_CARD_CAP_RNG 0x00000004 /* Card doesn't return any File Control Info. */ #define SC_CARD_CAP_NO_FCI 0x00000008 /* Use the card's ACs in sc_pkcs15init_authenticate(), * instead of relying on the ACL info in the profile files. */ #define SC_CARD_CAP_USE_FCI_AC 0x00000010 /* D-TRUST CardOS cards special flags */ #define SC_CARD_CAP_ONLY_RAW_HASH 0x00000040 #define SC_CARD_CAP_ONLY_RAW_HASH_STRIPPED 0x00000080 typedef struct sc_card { struct sc_context *ctx; struct sc_reader *reader; struct sc_atr atr; int type; /* Card type, for card driver internal use */ unsigned long caps, flags; unsigned int wait_resend_apdu; /* Delay (msec) before responding to an SW = 6CXX */ int cla; size_t max_send_size; /* Max Lc supported by the card */ size_t max_recv_size; /* Max Le supported by the card */ struct sc_app_info *app[SC_MAX_CARD_APPS]; int app_count; struct sc_file *ef_dir; struct sc_ef_atr *ef_atr; struct sc_algorithm_info *algorithms; int algorithm_count; int lock_count; struct sc_card_driver *driver; struct sc_card_operations *ops; const char *name; void *drv_data; int max_pin_len; struct sc_card_cache cache; sc_serial_number_t serialnr; void *mutex; unsigned int magic; } sc_card_t; struct sc_card_operations { /* Called in sc_connect_card(). Must return 1, if the current * card can be handled with this driver, or 0 otherwise. ATR * field of the sc_card struct is filled in before calling * this function. */ int (*match_card)(struct sc_card *card); /* Called when ATR of the inserted card matches an entry in ATR * table. May return SC_ERROR_INVALID_CARD to indicate that * the card cannot be handled with this driver. */ int (*init)(struct sc_card *card); /* Called when the card object is being freed. finish() has to * deallocate all possible private data. */ int (*finish)(struct sc_card *card); /* ISO 7816-4 functions */ int (*read_binary)(struct sc_card *card, unsigned int idx, u8 * buf, size_t count, unsigned long flags); int (*write_binary)(struct sc_card *card, unsigned int idx, const u8 * buf, size_t count, unsigned long flags); int (*update_binary)(struct sc_card *card, unsigned int idx, const u8 * buf, size_t count, unsigned long flags); int (*erase_binary)(struct sc_card *card, unsigned int idx, size_t count, unsigned long flags); int (*read_record)(struct sc_card *card, unsigned int rec_nr, u8 * buf, size_t count, unsigned long flags); int (*write_record)(struct sc_card *card, unsigned int rec_nr, const u8 * buf, size_t count, unsigned long flags); int (*append_record)(struct sc_card *card, const u8 * buf, size_t count, unsigned long flags); int (*update_record)(struct sc_card *card, unsigned int rec_nr, const u8 * buf, size_t count, unsigned long flags); /* select_file: Does the equivalent of SELECT FILE command specified * in ISO7816-4. Stores information about the selected file to * , if not NULL. */ int (*select_file)(struct sc_card *card, const struct sc_path *path, struct sc_file **file_out); int (*get_response)(struct sc_card *card, size_t *count, u8 *buf); int (*get_challenge)(struct sc_card *card, u8 * buf, size_t count); /* * ISO 7816-8 functions */ /* verify: Verifies reference data of type , identified by * . If is not NULL, number of verifying * tries left is saved in case of verification failure, if the * information is available. */ int (*verify)(struct sc_card *card, unsigned int type, int ref_qualifier, const u8 *data, size_t data_len, int *tries_left); /* logout: Resets all access rights that were gained. */ int (*logout)(struct sc_card *card); /* restore_security_env: Restores a previously saved security * environment, and stores information about the environment to * , if not NULL. */ int (*restore_security_env)(struct sc_card *card, int se_num); /* set_security_env: Initializes the security environment on card * according to , and stores the environment as on the * card. If se_num <= 0, the environment will not be stored. */ int (*set_security_env)(struct sc_card *card, const struct sc_security_env *env, int se_num); /* decipher: Engages the deciphering operation. Card will use the * security environment set in a call to set_security_env or * restore_security_env. */ int (*decipher)(struct sc_card *card, const u8 * crgram, size_t crgram_len, u8 * out, size_t outlen); /* compute_signature: Generates a digital signature on the card. Similiar * to the function decipher. */ int (*compute_signature)(struct sc_card *card, const u8 * data, size_t data_len, u8 * out, size_t outlen); int (*change_reference_data)(struct sc_card *card, unsigned int type, int ref_qualifier, const u8 *old, size_t oldlen, const u8 *newref, size_t newlen, int *tries_left); int (*reset_retry_counter)(struct sc_card *card, unsigned int type, int ref_qualifier, const u8 *puk, size_t puklen, const u8 *newref, size_t newlen); /* * ISO 7816-9 functions */ int (*create_file)(struct sc_card *card, struct sc_file *file); int (*delete_file)(struct sc_card *card, const struct sc_path *path); /* list_files: Enumerates all the files in the current DF, and * writes the corresponding file identifiers to . Returns * the number of bytes stored. */ int (*list_files)(struct sc_card *card, u8 *buf, size_t buflen); int (*check_sw)(struct sc_card *card,unsigned int sw1,unsigned int sw2); int (*card_ctl)(struct sc_card *card, unsigned long request, void *data); int (*process_fci)(struct sc_card *card, struct sc_file *file, const u8 *buf, size_t buflen); int (*construct_fci)(struct sc_card *card, const struct sc_file *file, u8 *out, size_t *outlen); /* pin_cmd: verify/change/unblock command; optionally using the * card's pin pad if supported. */ int (*pin_cmd)(struct sc_card *, struct sc_pin_cmd_data *, int *tries_left); int (*get_data)(sc_card_t *, unsigned int, u8 *, size_t); int (*put_data)(sc_card_t *, unsigned int, const u8 *, size_t); int (*delete_record)(sc_card_t *card, unsigned int rec_nr); }; typedef struct sc_card_driver { const char *name; const char *short_name; struct sc_card_operations *ops; struct sc_atr_table *atr_map; unsigned int natrs; void *dll; } sc_card_driver_t; /** * @struct sc_thread_context_t * Structure for the locking function to use when using libopensc * in a multi-threaded application. */ typedef struct { /** the version number of this structure (0 for this version) */ unsigned int ver; /** creates a mutex object */ int (*create_mutex)(void **); /** locks a mutex object (blocks until the lock has been acquired) */ int (*lock_mutex)(void *); /** unlocks a mutex object */ int (*unlock_mutex)(void *); /** destroys a mutex object */ int (*destroy_mutex)(void *); /** returns unique identifier for the thread (can be NULL) */ unsigned long (*thread_id)(void); } sc_thread_context_t; typedef struct sc_context { scconf_context *conf; scconf_block *conf_blocks[3]; char *app_name; int debug; FILE *debug_file; char *preferred_language; list_t readers; struct sc_reader_driver *reader_driver; void *reader_drv_data; struct sc_card_driver *card_drivers[SC_MAX_CARD_DRIVERS]; struct sc_card_driver *forced_driver; sc_thread_context_t *thread_ctx; void *mutex; unsigned int magic; } sc_context_t; /* APDU handling functions */ /** Sends a APDU to the card * @param card sc_card_t object to which the APDU should be send * @param apdu sc_apdu_t object of the APDU to be send * @return SC_SUCCESS on succcess and an error code otherwise */ int sc_transmit_apdu(sc_card_t *card, sc_apdu_t *apdu); void sc_format_apdu(sc_card_t *card, sc_apdu_t *apdu, int cse, int ins, int p1, int p2); /** Transforms an APDU from binary to its @c sc_apdu_t representation * @param ctx sc_context_t object (used for logging) * @param buf APDU to be encoded as an @c sc_apdu_t object * @param len length of @a buf * @param apdu @c sc_apdu_t object to initialize * @return SC_SUCCESS on success and an error code otherwise * @note On successful initialization apdu->data will point to @a buf with an * appropriate offset. Only free() @a buf, when apdu->data is not needed any * longer. * @note On successful initialization @a apdu->resp and apdu->resplen will be * 0. You should modify both if you are expecting data in the response APDU. */ int sc_bytes2apdu(sc_context_t *ctx, const u8 *buf, size_t len, sc_apdu_t *apdu); int sc_check_sw(struct sc_card *card, unsigned int sw1, unsigned int sw2); /********************************************************************/ /* opensc context functions */ /********************************************************************/ /** * Establishes an OpenSC context. Note: this function is deprecated, * please use sc_context_create() instead. * @param ctx A pointer to a pointer that will receive the allocated context * @param app_name A string that identifies the application, used primarily * in finding application-specific configuration data. Can be NULL. */ int sc_establish_context(sc_context_t **ctx, const char *app_name); /** * @struct sc_context_t initialization parameters * Structure to supply additional parameters, for example * mutex information, to the sc_context_t creation. */ typedef struct { /** version number of this structure (0 for this version) */ unsigned int ver; /** name of the application (used for finding application * dependend configuration data). If NULL the name "default" * will be used. */ const char *app_name; /** flags, currently unused */ unsigned long flags; /** mutex functions to use (optional) */ sc_thread_context_t *thread_ctx; } sc_context_param_t; /** * Creates a new sc_context_t object. * @param ctx pointer to a sc_context_t pointer for the newly * created sc_context_t object. * @param parm parameters for the sc_context_t creation (see * sc_context_param_t for a description of the supported * options). This parameter is optional and can be NULL. * @return SC_SUCCESS on success and an error code otherwise. */ int sc_context_create(sc_context_t **ctx, const sc_context_param_t *parm); /** * Releases an established OpenSC context * @param ctx A pointer to the context structure to be released */ int sc_release_context(sc_context_t *ctx); /** * Detect new readers available on system. * @param ctx OpenSC context * @return SC_SUCCESS on success and an error code otherwise. */ int sc_ctx_detect_readers(sc_context_t *ctx); /** * Returns a pointer to the specified sc_reader_t object * @param ctx OpenSC context * @param i number of the reader structure to return (starting with 0) * @return the requested sc_reader object or NULL if the index is * not available */ sc_reader_t *sc_ctx_get_reader(sc_context_t *ctx, unsigned int i); /** * Pass in pointers to handles to be used for the pcsc reader. * This is used by cardmod to pass in handles provided by BaseCSP * * @param ctx pointer to a sc_context_t * @param pcsc_context_handle pointer to the new context_handle to use * @param pcsc_card_handle pointer to the new card_handle to use * @return SC_SUCCESS on success and an error code otherwise. */ int sc_ctx_use_reader(sc_context_t *ctx, void * pcsc_context_handle, void * pcsc_card_handle); /** * Returns a pointer to the specified sc_reader_t object * @param ctx OpenSC context * @param name name of the reader to look for * @return the requested sc_reader object or NULL if the reader is * not available */ sc_reader_t *sc_ctx_get_reader_by_name(sc_context_t *ctx, const char *name); /** * Returns a pointer to the specified sc_reader_t object * @param ctx OpenSC context * @param id id of the reader (starting from 0) * @return the requested sc_reader object or NULL if the reader is * not available */ sc_reader_t *sc_ctx_get_reader_by_id(sc_context_t *ctx, unsigned int id); /** * Returns the number a available sc_reader objects * @param ctx OpenSC context * @return the number of available reader objects */ unsigned int sc_ctx_get_reader_count(sc_context_t *ctx); /** * Redirects OpenSC debug log to the specified file * @param ctx existing OpenSC context * @param filename path to the file or "stderr" or "stdout" * @return SC_SUCCESS on success and an error code otherwise */ int sc_ctx_log_to_file(sc_context_t *ctx, const char* filename); /** * Forces the use of a specified card driver * @param ctx OpenSC context * @param short_name The short name of the driver to use (e.g. 'cardos') */ int sc_set_card_driver(sc_context_t *ctx, const char *short_name); /** * Connects to a card in a reader and auto-detects the card driver. * The ATR (Answer to Reset) string of the card is also retrieved. * @param reader Reader structure * @param card The allocated card object will go here */ int sc_connect_card(sc_reader_t *reader, sc_card_t **card); /** * Disconnects from a card, and frees the card structure. Any locks * made by the application must be released before calling this function. * NOTE: The card is not reset nor powered down after the operation. * @param card The card to disconnect * @return SC_SUCCESS on success and an error code otherwise */ int sc_disconnect_card(sc_card_t *card); /** * Checks if a card is present in a reader * @param reader Reader structure * @retval If an error occured, the return value is a (negative) * OpenSC error code. If no card is present, 0 is returned. * Otherwise, a positive value is returned, which is a * combination of flags. The flag SC_READER_CARD_PRESENT is * always set. In addition, if the card was exchanged, * the SC_READER_CARD_CHANGED flag is set. */ int sc_detect_card_presence(sc_reader_t *reader); /** * Waits for an event on readers. Note: only the event is detected, * there is no update of any card or other info. * NOTE: Only PC/SC backend implements this. * @param ctx pointer to a Context structure * @param event_mask The types of events to wait for; this should * be ORed from one of the following * SC_EVENT_CARD_REMOVED * SC_EVENT_CARD_INSERTED * SC_EVENT_READER_ATTACHED * @param event_reader (OUT) the reader on which the event was detected, or NULL if new reader * @param event (OUT) the events that occurred. This is also ORed * from the SC_EVENT_CARD_* constants listed above. * @param timeout Amount of millisecs to wait; -1 means forever * @retval < 0 if an error occured * @retval = 0 if a an event happened * @retval = 1 if the timeout occured */ int sc_wait_for_event(sc_context_t *ctx, unsigned int event_mask, sc_reader_t **event_reader, unsigned int *event, int timeout, void **reader_states); /** * Resets the card. * NOTE: only PC/SC backend implements this function at this moment. * @param card The card to reset. * @param do_cold_reset 0 for a warm reset, 1 for a cold reset (unpower) * @retval SC_SUCCESS on success */ int sc_reset(sc_card_t *card, int do_cold_reset); /** * Cancel all pending PC/SC calls * NOTE: only PC/SC backend implements this function. * @param ctx pointer to application context * @retval SC_SUCCESS on success */ int sc_cancel(sc_context_t *ctx); /** * Tries acquire the reader lock. * @param card The card to lock * @retval SC_SUCCESS on success */ int sc_lock(sc_card_t *card); /** * Unlocks a previously acquired reader lock. * @param card The card to unlock * @retval SC_SUCCESS on success */ int sc_unlock(sc_card_t *card); /********************************************************************/ /* ISO 7816-4 related functions */ /********************************************************************/ /** * Does the equivalent of ISO 7816-4 command SELECT FILE. * @param card sc_card_t object on which to issue the command * @param path The path, file id or name of the desired file * @param file If not NULL, will receive a pointer to a new structure * @return SC_SUCCESS on success and an error code otherwise */ int sc_select_file(sc_card_t *card, const sc_path_t *path, sc_file_t **file); /** * List file ids within a DF * @param card sc_card_t object on which to issue the command * @param buf buffer for the read file ids (the filed ids are * stored in the buffer as a sequence of 2 byte values) * @param buflen length of the supplied buffer * @return number of files ids read or an error code */ int sc_list_files(sc_card_t *card, u8 *buf, size_t buflen); /** * Read data from a binary EF * @param card sc_card_t object on which to issue the command * @param idx index within the file with the data to read * @param buf buffer to the read data * @param count number of bytes to read * @param flags flags for the READ BINARY command (currently not used) * @return number of bytes read or an error code */ int sc_read_binary(sc_card_t *card, unsigned int idx, u8 * buf, size_t count, unsigned long flags); /** * Write data to a binary EF * @param card sc_card_t object on which to issue the command * @param idx index within the file for the data to be written * @param buf buffer with the data * @param count number of bytes to write * @param flags flags for the WRITE BINARY command (currently not used) * @return number of bytes writen or an error code */ int sc_write_binary(sc_card_t *card, unsigned int idx, const u8 * buf, size_t count, unsigned long flags); /** * Updates the content of a binary EF * @param card sc_card_t object on which to issue the command * @param idx index within the file for the data to be updated * @param buf buffer with the new data * @param count number of bytes to update * @param flags flags for the UPDATE BINARY command (currently not used) * @return number of bytes writen or an error code */ int sc_update_binary(sc_card_t *card, unsigned int idx, const u8 * buf, size_t count, unsigned long flags); /** * Sets (part of) the content fo an EF to its logical erased state * @param card sc_card_t object on which to issue the command * @param idx index within the file for the data to be erased * @param count number of bytes to erase * @param flags flags for the ERASE BINARY command (currently not used) * @return number of bytes writen or an error code */ int sc_erase_binary(struct sc_card *card, unsigned int idx, size_t count, unsigned long flags); #define SC_RECORD_EF_ID_MASK 0x0001FUL /** flags for record operations */ /** use first record */ #define SC_RECORD_BY_REC_ID 0x00000UL /** use the specified record number */ #define SC_RECORD_BY_REC_NR 0x00100UL /** use currently selected record */ #define SC_RECORD_CURRENT 0UL /** * Reads a record from the current (i.e. selected) file. * @param card sc_card_t object on which to issue the command * @param rec_nr SC_READ_RECORD_CURRENT or a record number starting from 1 * @param buf Pointer to a buffer for storing the data * @param count Number of bytes to read * @param flags flags (may contain a short file id of a file to select) * @retval number of bytes read or an error value */ int sc_read_record(sc_card_t *card, unsigned int rec_nr, u8 * buf, size_t count, unsigned long flags); /** * Writes data to a record from the current (i.e. selected) file. * @param card sc_card_t object on which to issue the command * @param rec_nr SC_READ_RECORD_CURRENT or a record number starting from 1 * @param buf buffer with to the data to be writen * @param count number of bytes to write * @param flags flags (may contain a short file id of a file to select) * @retval number of bytes writen or an error value */ int sc_write_record(sc_card_t *card, unsigned int rec_nr, const u8 * buf, size_t count, unsigned long flags); /** * Appends a record to the current (i.e. selected) file. * @param card sc_card_t object on which to issue the command * @param buf buffer with to the data for the new record * @param count length of the data * @param flags flags (may contain a short file id of a file to select) * @retval number of bytes writen or an error value */ int sc_append_record(sc_card_t *card, const u8 * buf, size_t count, unsigned long flags); /** * Updates the data of a record from the current (i.e. selected) file. * @param card sc_card_t object on which to issue the command * @param rec_nr SC_READ_RECORD_CURRENT or a record number starting from 1 * @param buf buffer with to the new data to be writen * @param count number of bytes to update * @param flags flags (may contain a short file id of a file to select) * @retval number of bytes writen or an error value */ int sc_update_record(sc_card_t *card, unsigned int rec_nr, const u8 * buf, size_t count, unsigned long flags); int sc_delete_record(sc_card_t *card, unsigned int rec_nr); /* get/put data functions */ int sc_get_data(sc_card_t *, unsigned int, u8 *, size_t); int sc_put_data(sc_card_t *, unsigned int, const u8 *, size_t); /** * Gets challenge from the card (normally random data). * @param card sc_card_t object on which to issue the command * @param rndout buffer for the returned random challenge * @param len length of the challenge * @return SC_SUCCESS on success and an error code otherwise */ int sc_get_challenge(sc_card_t *card, u8 * rndout, size_t len); /********************************************************************/ /* ISO 7816-8 related functions */ /********************************************************************/ int sc_restore_security_env(sc_card_t *card, int se_num); int sc_set_security_env(sc_card_t *card, const struct sc_security_env *env, int se_num); int sc_decipher(sc_card_t *card, const u8 * crgram, size_t crgram_len, u8 * out, size_t outlen); int sc_compute_signature(sc_card_t *card, const u8 * data, size_t data_len, u8 * out, size_t outlen); int sc_verify(sc_card_t *card, unsigned int type, int ref, const u8 *buf, size_t buflen, int *tries_left); /** * Resets the security status of the card (i.e. withdraw all granted * access rights). Note: not all card operating systems support a logout * command and in this case SC_ERROR_NOT_SUPPORTED is returned. * @param card sc_card_t object * @return SC_SUCCESS on success, SC_ERROR_NOT_SUPPORTED if the card * doesn't support a logout command and an error code otherwise */ int sc_logout(sc_card_t *card); int sc_pin_cmd(sc_card_t *card, struct sc_pin_cmd_data *, int *tries_left); int sc_change_reference_data(sc_card_t *card, unsigned int type, int ref, const u8 *old, size_t oldlen, const u8 *newref, size_t newlen, int *tries_left); int sc_reset_retry_counter(sc_card_t *card, unsigned int type, int ref, const u8 *puk, size_t puklen, const u8 *newref, size_t newlen); int sc_build_pin(u8 *buf, size_t buflen, struct sc_pin_cmd_pin *pin, int pad); /********************************************************************/ /* ISO 7816-9 related functions */ /********************************************************************/ int sc_create_file(sc_card_t *card, sc_file_t *file); int sc_delete_file(sc_card_t *card, const sc_path_t *path); /* Card controls */ int sc_card_ctl(sc_card_t *card, unsigned long command, void *arg); int sc_file_valid(const sc_file_t *file); sc_file_t * sc_file_new(void); void sc_file_free(sc_file_t *file); void sc_file_dup(sc_file_t **dest, const sc_file_t *src); int sc_file_add_acl_entry(sc_file_t *file, unsigned int operation, unsigned int method, unsigned long key_ref); const struct sc_acl_entry * sc_file_get_acl_entry(const sc_file_t *file, unsigned int operation); void sc_file_clear_acl_entries(sc_file_t *file, unsigned int operation); int sc_file_set_sec_attr(sc_file_t *file, const u8 *sec_attr, size_t sec_attr_len); int sc_file_set_prop_attr(sc_file_t *file, const u8 *prop_attr, size_t prop_attr_len); int sc_file_set_type_attr(sc_file_t *file, const u8 *type_attr, size_t type_attr_len); /********************************************************************/ /* sc_path_t handling functions */ /********************************************************************/ /** * Sets the content of a sc_path_t object. * @param path sc_path_t object to set * @param type type of path * @param id value of the path * @param id_len length of the path value * @param index index within the file * @param count number of bytes * @return SC_SUCCESS on success and an error code otherwise */ int sc_path_set(sc_path_t *path, int type, const u8 *id, size_t id_len, int index, int count); void sc_format_path(const char *path_in, sc_path_t *path_out); /** * Return string representation of the given sc_path_t object * Warning: as static memory is used for the return value * this function is not thread-safe !!! * @param path sc_path_t object of the path to be printed * @return pointer to a const buffer with the string representation * of the path */ const char *sc_print_path(const sc_path_t *path); /** * Prints the sc_path_t object to a character buffer * @param buf pointer to the buffer * @param buflen size of the buffer * @param path sc_path_t object to be printed * @return SC_SUCCESS on success and an error code otherwise */ int sc_path_print(char *buf, size_t buflen, const sc_path_t *path); /** * Compares two sc_path_t objects * @param patha sc_path_t object of the first path * @param pathb sc_path_t object of the second path * @return 1 if both paths are equal and 0 otherwise */ int sc_compare_path(const sc_path_t *patha, const sc_path_t *pathb); /** * Concatenate two sc_path_t values and store the result in * d (note: d can be the same as p1 or p2). * @param d destination sc_path_t object * @param p1 first sc_path_t object * @param p2 second sc_path_t object * @return SC_SUCCESS on success and an error code otherwise */ int sc_concatenate_path(sc_path_t *d, const sc_path_t *p1, const sc_path_t *p2); /** * Appends a sc_path_t object to another sc_path_t object (note: * this function is a wrapper for sc_concatenate_path) * @param dest destination sc_path_t object * @param src sc_path_t object to append * @return SC_SUCCESS on success and an error code otherwise */ int sc_append_path(sc_path_t *dest, const sc_path_t *src); /** * Checks whether one path is a prefix of another path * @param prefix sc_path_t object with the prefix * @param path sc_path_t object with the path which should start * with the given prefix * @return 1 if the parameter prefix is a prefix of path and 0 otherwise */ int sc_compare_path_prefix(const sc_path_t *prefix, const sc_path_t *path); int sc_append_path_id(sc_path_t *dest, const u8 *id, size_t idlen); int sc_append_file_id(sc_path_t *dest, unsigned int fid); /** * Returns a const sc_path_t object for the MF * @return sc_path_t object of the MF */ const sc_path_t *sc_get_mf_path(void); /********************************************************************/ /* miscellaneous functions */ /********************************************************************/ int sc_hex_to_bin(const char *in, u8 *out, size_t *outlen); int sc_bin_to_hex(const u8 *, size_t, char *, size_t, int separator); scconf_block *sc_get_conf_block(sc_context_t *ctx, const char *name1, const char *name2, int priority); /** * Converts a given OID in ascii form to a internal sc_object_id object * @param oid OUT sc_object_id object for the result * @param in ascii string with the oid ("1.2.3.4.5...") * @return SC_SUCCESS or an error value if an error occurred. */ int sc_format_oid(struct sc_object_id *oid, const char *in); /** * Compares two sc_object_id objects * @param oid1 the first sc_object_id object * @param oid2 the second sc_object_id object * @return 1 if the oids are equal and a non-zero value otherwise */ int sc_compare_oid(const struct sc_object_id *oid1, const struct sc_object_id *oid2); /* Base64 encoding/decoding functions */ int sc_base64_encode(const u8 *in, size_t inlen, u8 *out, size_t outlen, size_t linelength); int sc_base64_decode(const char *in, u8 *out, size_t outlen); /** * Clears a memory buffer (note: when OpenSSL is used this is * currently a wrapper for OPENSSL_cleanse() ). * @param ptr pointer to the memory buffer * @param len length of the memory buffer */ void sc_mem_clear(void *ptr, size_t len); void *sc_mem_alloc_secure(size_t len); int sc_get_cache_dir(sc_context_t *ctx, char *buf, size_t bufsize); int sc_make_cache_dir(sc_context_t *ctx); int sc_enum_apps(sc_card_t *card); struct sc_app_info *sc_find_app(struct sc_card *card, struct sc_aid *aid); void sc_free_apps(sc_card_t *card); int sc_parse_ef_atr(sc_card_t *card); void sc_free_ef_atr(sc_card_t *card); int sc_update_dir(sc_card_t *card, sc_app_info_t *app); void sc_print_cache(struct sc_card *card); struct sc_algorithm_info * sc_card_find_rsa_alg(sc_card_t *card, unsigned int key_length); struct sc_algorithm_info * sc_card_find_ec_alg(sc_card_t *card, unsigned int field_length); struct sc_algorithm_info * sc_card_find_gostr3410_alg(sc_card_t *card, unsigned int key_length); /** * Used to initialize the @c sc_remote_data structure -- * reset the header of the 'remote APDUs' list, set the handlers * to manipulate the list. */ void sc_remote_data_init(struct sc_remote_data *rdata); struct sc_card_error { unsigned int SWs; int errorno; const char *errorstr; }; extern const char *sc_get_version(void); #define SC_IMPLEMENT_DRIVER_VERSION(a) \ static const char *drv_version = (a); \ const char *sc_driver_version()\ { \ return drv_version; \ } extern sc_card_driver_t *sc_get_iso7816_driver(void); #ifdef __cplusplus } #endif #endif