#ifndef _OSMOCOM_SIM_H #define _OSMOCOM_SIM_H #include #include #define APDU_HDR_LEN 5 /*! * \file sim.h * \brief Routines for helping with SIM (ISO/IEC 7816-4 more generally) communication. */ /*! \brief command-response pairs cases * * Enumeration used to identify the APDU structure based on command-response pair case , as specified in ISO/IEC 7816-3:2006(E) §12.1. */ enum osim_apdu_case { APDU_CASE_1, /*!< command header, no command data field, no response data field */ APDU_CASE_2S, /*!< command header, no command data field, response data field (short) */ APDU_CASE_2E, /*!< command header, no command data field, response data field (extended) */ APDU_CASE_3S, /*!< command header, command data field (short), no response data field */ APDU_CASE_3E, /*!< command header, command data field (extended), no response data field */ APDU_CASE_4S, /*!< command header, command data field (short), response data field (short) */ APDU_CASE_4E /*!< command header, command data field (extended), response data field (extended) */ }; /*! \brief APDU/TPDU command header * * This structure encode an APDU/TPDU command header, as specified in ISO/IEC 7816-3:2006(E) §12.2 and §12.3. * The APDU (application layer) can be encoded as different TPDUs (transport layer), depending on the transport protocol used. * The TPDU encoding by T=1 of the APDU command header is identical to the APDU. * The TPDU encoding by T=0 of the APDU command header adds a Parameter 3 field, generally used instead of Lc/Le. * * @todo have different structures for APDU, TPDU by T=0, and TPDU by T=1. */ struct osim_apdu_cmd_hdr { uint8_t cla; /*!< CLASS byte */ uint8_t ins; /*!< INSTRUCTION byte */ uint8_t p1; /*!< Parameter 1 byte */ uint8_t p2; /*!< Parameter 2 byte */ uint8_t p3; /*!< Parameter 3 byte, used for TPDU by T=0 */ } __attribute__ ((packed)); #define msgb_apdu_dr(__x) /*! \brief APDU command body * * This structure encode a command body, as specified in ISO/IEC 7816-3:2006(E) §12.1. * The data and response contents should be provided along with this structure. */ struct osim_msgb_cb { enum osim_apdu_case apduc; /*!< command-response pair case, defining the encoding of Lc and Le */ uint16_t lc; /*!< number of bytes in the command data field Nc, which will encoded in 0, 1 or 3 bytes into Lc, depending on the case */ uint16_t le; /*!< maximum number of bytes expected in the response data field, which will encoded in 0, 1, 2 or 3 bytes into Le, depending on the case */ uint16_t sw; /*!< status word, composed of SW1 and SW2 bytes */ } __attribute__((__may_alias__)); #define OSIM_MSGB_CB(__msgb) ((struct osim_msgb_cb *)&((__msgb)->cb[0])) /*! \brief status word from msgb->cb */ #define msgb_apdu_case(__x) OSIM_MSGB_CB(__x)->apduc #define msgb_apdu_lc(__x) OSIM_MSGB_CB(__x)->lc #define msgb_apdu_le(__x) OSIM_MSGB_CB(__x)->le #define msgb_apdu_sw(__x) OSIM_MSGB_CB(__x)->sw /*! \brief pointer to the command header of the APDU */ #define msgb_apdu_h(__x) ((struct osim_apdu_cmd_hdr *)(__x)->l2h) #define msgb_apdu_dc(__x) ((__x)->l2h + sizeof(struct osim_apdu_cmd_hdr)) #define msgb_apdu_de(__x) ((__x)->l2h + sizeof(struct osim_apdu_cmd_hdr) + msgb_apdu_lc(__x)) /* FILES */ struct osim_file; struct osim_file_desc; struct osim_decoded_data; /*! \brief Operations for a given File */ struct osim_file_ops { /*! Parse binary file data into osim_decoded_data */ int (*parse)(struct osim_decoded_data *dd, const struct osim_file_desc *desc, int len, uint8_t *data); /*! Encode osim_decoded_data into binary file */ struct msgb * (*encode)(const struct osim_file_desc *desc, const struct osim_decoded_data *decoded); }; enum osim_element_type { ELEM_T_NONE, ELEM_T_BOOL, /*!< a boolean flag */ ELEM_T_UINT8, /*!< unsigned integer */ ELEM_T_UINT16, /*!< unsigned integer */ ELEM_T_UINT32, /*!< unsigned integer */ ELEM_T_STRING, /*!< generic string */ ELEM_T_BCD, /*!< BCD encoded digits */ ELEM_T_BYTES, /*!< BCD encoded digits */ ELEM_T_GROUP, /*!< group container, has siblings */ }; enum osim_element_repr { ELEM_REPR_NONE, ELEM_REPR_DEC, ELEM_REPR_HEX, }; /*! \brief A single decoded element inside a file */ struct osim_decoded_element { struct llist_head list; enum osim_element_type type; enum osim_element_repr representation; const char *name; unsigned int length; union { uint8_t u8; uint16_t u16; uint32_t u32; uint8_t *buf; /*! A list of sibling decoded_items */ struct llist_head siblings; } u; }; /*! Decoded data for a single file, consisting of all decoded elements */ struct osim_decoded_data { /*! file to which we belong */ const struct osim_file *file; /*! list of 'struct decoded_element' */ struct llist_head decoded_elements; }; enum osim_file_type { TYPE_NONE, TYPE_DF, /*!< Dedicated File */ TYPE_ADF, /*!< Application Dedicated File */ TYPE_EF, /*!< Entry File */ TYPE_EF_INT, /*!< Internal Entry File */ }; enum osim_ef_type { EF_TYPE_TRANSP, /*!< Transparent EF */ EF_TYPE_RECORD_FIXED, /*!< Fixed-Size Record EF */ EF_TYPE_RECORD_CYCLIC, /*!< Cyclic Record EF */ EF_TYPE_KEY, /*!< Key file as used in TETRA */ }; #define F_OPTIONAL 0x0001 #define SFI_NONE 0xFF struct osim_file_desc { struct llist_head list; /*!< local element in list */ struct llist_head child_list; /*!< list of children EF in DF */ struct osim_file_desc *parent; /*!< parent DF */ enum osim_file_type type; /*!< Type of the file (EF, DF, ...) */ enum osim_ef_type ef_type; /*!< Type of the EF, if type == TYPE_EF */ uint16_t fid; /*!< File Identifier */ uint8_t sfid; /*!< Short File IDentifier */ const uint8_t *df_name; uint8_t df_name_len; const char *short_name; /*!< Short Name (like EF.ICCID) */ const char *long_name; /*!< Long / description */ unsigned int flags; struct osim_file_ops ops; /*!< Operations (parse/encode */ struct { size_t min; /*!< Minimum size of the file (transparent) or record in cyclic / linear file */ size_t rec; /*!< Recommended size */ } size; }; /*! \brief A single instance of a file: Descriptor and contents */ struct osim_file { /*! Descriptor for the file */ const struct osim_file_desc *desc; /*! Encoded file contents */ struct msgb *encoded_data; /*! Parsed/Decoded file contents */ struct osim_decoded_data *decoded_data; }; /*! Convenience macros for defining EF */ #define EF(pfid, sfi, pns, pflags, pnl, ptype, smin, srec, pdec, penc) \ { \ .fid = pfid, \ .sfid = sfi, \ .type = TYPE_EF, \ .ef_type = ptype, \ .short_name = pns, \ .long_name = pnl, \ .flags = pflags, \ .ops = { .encode = penc, .parse = pdec }, \ .size = { .min = smin, .rec = srec}, \ } /*! Convenience macros for defining EF */ #define EF_TRANSP(fid, sfi, ns, flags, smin, srec, nl, dec, enc) \ EF(fid, sfi, ns, flags, nl, EF_TYPE_TRANSP, \ smin, srec, dec, enc) /*! Convenience macros for defining EF */ #define EF_TRANSP_N(fid, sfi, ns, flags, smin, srec, nl) \ EF_TRANSP(fid, sfi, ns, flags, smin, srec, \ nl, &default_decode, NULL) /*! Convenience macros for defining EF */ #define EF_CYCLIC(fid, sfi, ns, flags, smin, srec, nl, dec, enc) \ EF(fid, sfi, ns, flags, nl, EF_TYPE_RECORD_CYCLIC, \ smin, srec, dec, enc) /*! Convenience macros for defining EF */ #define EF_CYCLIC_N(fid, sfi, ns, flags, smin, srec, nl) \ EF_CYCLIC(fid, sfi, ns, flags, smin, srec, nl, \ &default_decode, NULL) /*! Convenience macros for defining EF */ #define EF_LIN_FIX(fid, sfi, ns, flags, smin, srec, nl, dec, enc) \ EF(fid, sfi, ns, flags, nl, EF_TYPE_RECORD_FIXED, \ smin, srec, dec, enc) /*! Convenience macros for defining EF */ #define EF_LIN_FIX_N(fid, sfi, ns, flags, smin, srec, nl) \ EF_LIN_FIX(fid, sfi, ns, flags, smin, srec, nl, \ &default_decode, NULL) /*! Convenience macros for defining EF */ #define EF_KEY(fid, sfi, ns, flags, smin, srec, nl, dec, enc) \ EF(fid, sfi, ns, flags, nl, EF_TYPE_KEY, \ smin, srec, dec, enc) /*! Convenience macros for defining EF */ #define EF_KEY_N(fid, sfi, ns, flags, smin, srec, nl) \ EF_KEY(fid, sfi, ns, flags, smin, srec, nl, \ &default_decode, NULL) struct osim_file_desc * osim_file_desc_find_name(struct osim_file_desc *parent, const char *name); struct osim_file_desc * osim_file_desc_find_fid(struct osim_file_desc *parent, uint16_t fid); struct osim_file_desc * osim_file_desc_find_sfid(struct osim_file_desc *parent, uint8_t sfid); /* STATUS WORDS */ enum osim_card_sw_type { SW_TYPE_NONE, SW_TYPE_STR, }; enum osim_card_sw_class { SW_CLS_NONE, SW_CLS_OK, SW_CLS_POSTP, SW_CLS_WARN, SW_CLS_ERROR, }; /*! A card status word (SW) */ struct osim_card_sw { /*! status word code (2 bytes) */ uint16_t code; /*! status word mask (2 bytes), to match range/prefix of SW */ uint16_t mask; enum osim_card_sw_type type; enum osim_card_sw_class class; union { /*! Human-readable meaning of SW */ const char *str; } u; }; #define OSIM_CARD_SW_LAST (const struct osim_card_sw) { \ .code = 0, .mask = 0, .type = SW_TYPE_NONE, \ .class = SW_CLS_NONE, .u.str = NULL \ } /*! \brief A card profile (e.g. SIM card */ struct osim_card_profile { const char *name; /*! Descriptor for the MF (root directory */ struct osim_file_desc *mf; /*! Array of pointers to status words */ const struct osim_card_sw **sws; }; const struct osim_card_sw *osim_find_sw(const struct osim_card_profile *cp, uint16_t sw); enum osim_card_sw_class osim_sw_class(const struct osim_card_profile *cp, uint16_t sw_in); struct osim_card_hdl; char *osim_print_sw(const struct osim_card_hdl *ch, uint16_t sw_in); extern const struct tlv_definition ts102221_fcp_tlv_def; extern const struct value_string ts102221_fcp_vals[14]; /* 11.1.1.3 */ enum ts102221_fcp_tag { UICC_FCP_T_FCP = 0x62, UICC_FCP_T_FILE_SIZE = 0x80, UICC_FCP_T_TOT_F_SIZE = 0x81, UICC_FCP_T_FILE_DESC = 0x82, UICC_FCP_T_FILE_ID = 0x83, UICC_FCP_T_DF_NAME = 0x84, UICC_FCP_T_SFID = 0x88, UICC_FCP_T_LIFEC_STS = 0x8A, UICC_FCP_T_SEC_ATTR_REFEXP= 0x8B, UICC_FCP_T_SEC_ATTR_COMP= 0x8C, UICC_FCP_T_PROPRIETARY = 0xA5, UICC_FCP_T_SEC_ATTR_EXP = 0xAB, UICC_FCP_T_PIN_STS_DO = 0xC6, }; struct msgb *osim_new_apdumsg(uint8_t cla, uint8_t ins, uint8_t p1, uint8_t p2, uint16_t lc, uint16_t le); /* CARD READERS */ enum osim_proto { OSIM_PROTO_T0 = 0, OSIM_PROTO_T1 = 1, }; enum osim_reader_driver { OSIM_READER_DRV_PCSC = 0, OSIM_READER_DRV_OPENCT = 1, OSIM_READER_DRV_SERIAL = 2, }; struct osim_reader_ops { const char *name; struct osim_reader_hdl *(*reader_open)(int idx, const char *name, void *ctx); struct osim_card_hdl *(*card_open)(struct osim_reader_hdl *rh, enum osim_proto proto); int (*transceive)(struct osim_reader_hdl *rh, struct msgb *msg); }; struct osim_reader_hdl { /*! \brief member in global list of readers */ struct llist_head list; const struct osim_reader_ops *ops; uint32_t proto_supported; void *priv; /*! \brief current card, if any */ struct osim_card_hdl *card; }; struct osim_card_hdl { /*! \brief member in global list of cards */ struct llist_head list; /*! \brief reader through which card is accessed */ struct osim_reader_hdl *reader; /*! \brief card profile */ struct osim_card_profile *prof; /*! \brief card protocol */ enum osim_proto proto; /*! \brief list of channels for this card */ struct llist_head channels; }; struct osim_chan_hdl { /*! \brief linked to card->channels */ struct llist_head list; /*! \brief card to which this channel belongs */ struct osim_card_hdl *card; const struct osim_file_desc *cwd; }; /* reader.c */ int osim_transceive_apdu(struct osim_chan_hdl *st, struct msgb *amsg); struct osim_reader_hdl *osim_reader_open(enum osim_reader_driver drv, int idx, const char *name, void *ctx); struct osim_card_hdl *osim_card_open(struct osim_reader_hdl *rh, enum osim_proto proto); #endif /* _OSMOCOM_SIM_H */