/* iso7816.c - ISO 7816 commands * Copyright (C) 2003, 2004, 2008, 2009 Free Software Foundation, Inc. * * This file is part of GnuPG. * * GnuPG 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 3 of the License, or * (at your option) any later version. * * GnuPG 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ #include #include #include #include #include #if defined(GNUPG_MAJOR_VERSION) # include "scdaemon.h" #endif /*GNUPG_MAJOR_VERSION*/ #include "iso7816.h" #include "apdu.h" #define CMD_SELECT_FILE 0xA4 #define CMD_SELECT_DATA 0xA5 #define CMD_VERIFY ISO7816_VERIFY #define CMD_CHANGE_REFERENCE_DATA ISO7816_CHANGE_REFERENCE_DATA #define CMD_RESET_RETRY_COUNTER ISO7816_RESET_RETRY_COUNTER #define CMD_GET_DATA 0xCA #define CMD_PUT_DATA 0xDA #define CMD_MSE 0x22 #define CMD_PSO 0x2A #define CMD_GENERAL_AUTHENTICATE 0x87 #define CMD_INTERNAL_AUTHENTICATE 0x88 #define CMD_GENERATE_KEYPAIR 0x47 #define CMD_GET_CHALLENGE 0x84 #define CMD_READ_BINARY 0xB0 #define CMD_READ_RECORD 0xB2 #define CMD_UPDATE_BINARY 0xD6 static gpg_error_t map_sw (int sw) { gpg_err_code_t ec; switch (sw) { case SW_EEPROM_FAILURE: ec = GPG_ERR_HARDWARE; break; case SW_TERM_STATE: ec = GPG_ERR_OBJ_TERM_STATE; break; case SW_WRONG_LENGTH: ec = GPG_ERR_INV_VALUE; break; case SW_ACK_TIMEOUT: ec = GPG_ERR_TIMEOUT; break; case SW_SM_NOT_SUP: ec = GPG_ERR_NOT_SUPPORTED; break; case SW_CC_NOT_SUP: ec = GPG_ERR_NOT_SUPPORTED; break; case SW_FILE_STRUCT: ec = GPG_ERR_CARD; break; case SW_CHV_WRONG: ec = GPG_ERR_BAD_PIN; break; case SW_CHV_BLOCKED: ec = GPG_ERR_PIN_BLOCKED; break; case SW_USE_CONDITIONS: ec = GPG_ERR_USE_CONDITIONS; break; case SW_NO_CURRENT_EF: ec = GPG_ERR_ENOENT; break; case SW_NOT_SUPPORTED: ec = GPG_ERR_NOT_SUPPORTED; break; case SW_BAD_PARAMETER: ec = GPG_ERR_INV_VALUE; break; case SW_FILE_NOT_FOUND: ec = GPG_ERR_ENOENT; break; case SW_RECORD_NOT_FOUND:ec= GPG_ERR_NOT_FOUND; break; case SW_REF_NOT_FOUND: ec = GPG_ERR_NO_OBJ; break; case SW_INCORRECT_P0_P1:ec = GPG_ERR_INV_VALUE; break; case SW_BAD_P0_P1: ec = GPG_ERR_INV_VALUE; break; case SW_EXACT_LENGTH: ec = GPG_ERR_INV_VALUE; break; case SW_INS_NOT_SUP: ec = GPG_ERR_CARD; break; case SW_CLA_NOT_SUP: ec = GPG_ERR_CARD; break; case SW_SUCCESS: ec = 0; break; case SW_HOST_OUT_OF_CORE: ec = GPG_ERR_ENOMEM; break; case SW_HOST_INV_VALUE: ec = GPG_ERR_INV_VALUE; break; case SW_HOST_INCOMPLETE_CARD_RESPONSE: ec = GPG_ERR_CARD; break; case SW_HOST_NOT_SUPPORTED: ec = GPG_ERR_NOT_SUPPORTED; break; case SW_HOST_LOCKING_FAILED: ec = GPG_ERR_BUG; break; case SW_HOST_BUSY: ec = GPG_ERR_EBUSY; break; case SW_HOST_NO_CARD: ec = GPG_ERR_CARD_NOT_PRESENT; break; case SW_HOST_CARD_INACTIVE: ec = GPG_ERR_CARD_RESET; break; case SW_HOST_CARD_IO_ERROR: ec = GPG_ERR_EIO; break; case SW_HOST_GENERAL_ERROR: ec = GPG_ERR_GENERAL; break; case SW_HOST_NO_READER: ec = GPG_ERR_ENODEV; break; case SW_HOST_ABORTED: ec = GPG_ERR_INV_RESPONSE; break; case SW_HOST_NO_PINPAD: ec = GPG_ERR_NOT_SUPPORTED; break; case SW_HOST_CANCELLED: ec = GPG_ERR_CANCELED; break; case SW_HOST_USB_OTHER: ec = GPG_ERR_EIO; break; case SW_HOST_USB_IO: ec = GPG_ERR_EIO; break; case SW_HOST_USB_ACCESS: ec = GPG_ERR_EACCES; break; case SW_HOST_USB_NO_DEVICE: ec = GPG_ERR_ENODEV; break; case SW_HOST_USB_BUSY: ec = GPG_ERR_EBUSY; break; case SW_HOST_USB_TIMEOUT: ec = GPG_ERR_TIMEOUT; break; case SW_HOST_USB_OVERFLOW: ec = GPG_ERR_EOVERFLOW; break; case SW_HOST_UI_CANCELLED: ec = GPG_ERR_CANCELED; break; case SW_HOST_UI_TIMEOUT: ec = GPG_ERR_TIMEOUT; break; default: if ((sw & 0x010000)) ec = GPG_ERR_GENERAL; /* Should not happen. */ else if ((sw & 0xff00) == SW_MORE_DATA) ec = 0; /* This should actually never been seen here. */ else if ((sw & 0xfff0) == 0x63C0) ec = GPG_ERR_BAD_PIN; else ec = GPG_ERR_CARD; } return gpg_error (ec); } /* Map a status word from the APDU layer to a gpg-error code. */ gpg_error_t iso7816_map_sw (int sw) { /* All APDU functions should return 0x9000 on success but for historical reasons of the implementation some return 0 to indicate success. We allow for that here. */ return sw? map_sw (sw) : 0; } /* This function is specialized version of the SELECT FILE command. SLOT is the card and reader as created for example by apdu_open_reader (), AID is a buffer of size AIDLEN holding the requested application ID. The function can't be used to enumerate AIDs and won't return the AID on success. The return value is 0 for okay or a GPG error code. Note that ISO error codes are internally mapped. Bit 0 of FLAGS should be set if the card does not understand P2=0xC0. */ gpg_error_t iso7816_select_application (int slot, const char *aid, size_t aidlen, unsigned int flags) { int sw; sw = apdu_send_simple (slot, 0, 0x00, CMD_SELECT_FILE, 4, (flags&1)? 0 :0x0c, aidlen, aid); return map_sw (sw); } /* This is the same as iso7816_select_application but may return data * at RESULT,RESULTLEN). */ gpg_error_t iso7816_select_application_ext (int slot, const char *aid, size_t aidlen, unsigned int flags, unsigned char **result, size_t *resultlen) { int sw; sw = apdu_send (slot, 0, 0x00, CMD_SELECT_FILE, 4, (flags&1)? 0:0x0c, aidlen, aid, result, resultlen); return map_sw (sw); } /* Simple MF selection as supported by some cards. */ gpg_error_t iso7816_select_mf (int slot) { int sw; sw = apdu_send_simple (slot, 0, 0x00, CMD_SELECT_FILE, 0x000, 0x0c, -1, NULL); return map_sw (sw); } gpg_error_t iso7816_select_file (int slot, int tag, int is_dir) { int sw, p0, p1; unsigned char tagbuf[2]; tagbuf[0] = (tag >> 8) & 0xff; tagbuf[1] = tag & 0xff; p0 = (tag == 0x3F00)? 0: is_dir? 1:2; p1 = 0x0c; /* No FC return. */ sw = apdu_send_simple (slot, 0, 0x00, CMD_SELECT_FILE, p0, p1, 2, (char*)tagbuf ); return map_sw (sw); } /* Do a select file command with a direct path. If TOPDF is set, the * actual used path is 3f00//. */ gpg_error_t iso7816_select_path (int slot, const unsigned short *path, size_t pathlen, unsigned short topdf) { int sw, p0, p1; unsigned char buffer[100]; int buflen = 0; if (pathlen*2 + 2 >= sizeof buffer) return gpg_error (GPG_ERR_TOO_LARGE); if (topdf) { buffer[buflen++] = topdf >> 8; buffer[buflen++] = topdf; } for (; pathlen; pathlen--, path++) { buffer[buflen++] = (*path >> 8); buffer[buflen++] = *path; } p0 = 0x08; p1 = 0x0c; /* No FC return. */ sw = apdu_send_simple (slot, 0, 0x00, CMD_SELECT_FILE, p0, p1, buflen, (char*)buffer ); return map_sw (sw); } /* This is a private command currently only working for TCOS cards. */ gpg_error_t iso7816_list_directory (int slot, int list_dirs, unsigned char **result, size_t *resultlen) { int sw; if (!result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; sw = apdu_send (slot, 0, 0x80, 0xAA, list_dirs? 1:2, 0, -1, NULL, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; } return map_sw (sw); } /* Wrapper around apdu_send. RESULT can be NULL if no result is * expected. In addition to an gpg-error return code the actual * status word is stored at R_SW unless that is NULL. */ gpg_error_t iso7816_send_apdu (int slot, int extended_mode, int class, int ins, int p0, int p1, int lc, const void *data, unsigned int *r_sw, unsigned char **result, size_t *resultlen) { int sw; if (result) { *result = NULL; *resultlen = 0; } sw = apdu_send (slot, extended_mode, class, ins, p0, p1, lc, data, result, resultlen); if (sw != SW_SUCCESS && result) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; } if (r_sw) *r_sw = sw; return map_sw (sw); } /* This function sends an already formatted APDU to the card. With HANDLE_MORE set to true a MORE DATA status will be handled internally. The return value is a gpg error code (i.e. a mapped status word). This is basically the same as apdu_send_direct but it maps the status word and does not return it in the result buffer. However, it R_SW is not NULL the status word is stored R_SW for closer inspection. */ gpg_error_t iso7816_apdu_direct (int slot, const void *apdudata, size_t apdudatalen, int handle_more, unsigned int *r_sw, unsigned char **result, size_t *resultlen) { int sw, sw2; if (result) { *result = NULL; *resultlen = 0; } sw = apdu_send_direct (slot, 0, apdudata, apdudatalen, handle_more, &sw2, result, resultlen); if (!sw) { if (!result) sw = sw2; else if (*resultlen < 2) sw = SW_HOST_GENERAL_ERROR; else { sw = ((*result)[*resultlen-2] << 8) | (*result)[*resultlen-1]; (*resultlen)--; (*resultlen)--; } } if (sw != SW_SUCCESS && result) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; } if (r_sw) *r_sw = sw; return map_sw (sw); } /* Check whether the reader supports the ISO command code COMMAND on the pinpad. Returns 0 on success. */ gpg_error_t iso7816_check_pinpad (int slot, int command, pininfo_t *pininfo) { int sw; sw = apdu_check_pinpad (slot, command, pininfo); return iso7816_map_sw (sw); } /* Perform a VERIFY command on SLOT using the card holder verification vector CHVNO. With PININFO non-NULL the pinpad of the reader will be used. Returns 0 on success. */ gpg_error_t iso7816_verify_kp (int slot, int chvno, pininfo_t *pininfo) { int sw; sw = apdu_pinpad_verify (slot, 0x00, CMD_VERIFY, 0, chvno, pininfo); return map_sw (sw); } /* Perform a VERIFY command on SLOT using the card holder verification vector CHVNO with a CHV of length CHVLEN. Returns 0 on success. */ gpg_error_t iso7816_verify (int slot, int chvno, const char *chv, size_t chvlen) { int sw; sw = apdu_send_simple (slot, 0, 0x00, CMD_VERIFY, 0, chvno, chvlen, chv); return map_sw (sw); } /* Some cards support a VERIFY command variant to check the status of * the the CHV without a need to try a CHV. In contrast to the other * functions this function returns the special codes ISO7816_VERIFY_* * or a non-negative number with the left attempts. */ int iso7816_verify_status (int slot, int chvno) { unsigned char apdu[4]; unsigned int sw; int result; apdu[0] = 0x00; apdu[1] = ISO7816_VERIFY; apdu[2] = 0x00; apdu[3] = chvno; if (!iso7816_apdu_direct (slot, apdu, 4, 0, &sw, NULL, NULL)) result = ISO7816_VERIFY_NOT_NEEDED; /* Not returned by all cards. */ else if (sw == 0x6a88 || sw == 0x6a80) result = ISO7816_VERIFY_NO_PIN; else if (sw == 0x6983) result = ISO7816_VERIFY_BLOCKED; else if (sw == 0x6985) result = ISO7816_VERIFY_NULLPIN; /* TCOS card */ else if ((sw & 0xfff0) == 0x63C0) result = (sw & 0x000f); else result = ISO7816_VERIFY_ERROR; return result; } /* Perform a CHANGE_REFERENCE_DATA command on SLOT for the card holder verification vector CHVNO. With PININFO non-NULL the pinpad of the reader will be used. If IS_EXCHANGE is 0, a "change reference data" is done, otherwise an "exchange reference data". */ gpg_error_t iso7816_change_reference_data_kp (int slot, int chvno, int is_exchange, pininfo_t *pininfo) { int sw; sw = apdu_pinpad_modify (slot, 0x00, CMD_CHANGE_REFERENCE_DATA, is_exchange ? 1 : 0, chvno, pininfo); return map_sw (sw); } /* Perform a CHANGE_REFERENCE_DATA command on SLOT for the card holder verification vector CHVNO. If the OLDCHV is NULL (and OLDCHVLEN 0), a "change reference data" is done, otherwise an "exchange reference data". The new reference data is expected in NEWCHV of length NEWCHVLEN. */ gpg_error_t iso7816_change_reference_data (int slot, int chvno, const char *oldchv, size_t oldchvlen, const char *newchv, size_t newchvlen) { int sw; char *buf; if ((!oldchv && oldchvlen) || (oldchv && !oldchvlen) || !newchv || !newchvlen ) return gpg_error (GPG_ERR_INV_VALUE); buf = xtrymalloc (oldchvlen + newchvlen); if (!buf) return gpg_error (gpg_err_code_from_errno (errno)); if (oldchvlen) memcpy (buf, oldchv, oldchvlen); memcpy (buf+oldchvlen, newchv, newchvlen); sw = apdu_send_simple (slot, 0, 0x00, CMD_CHANGE_REFERENCE_DATA, oldchvlen? 0 : 1, chvno, oldchvlen+newchvlen, buf); wipememory (buf, oldchvlen+newchvlen); xfree (buf); return map_sw (sw); } gpg_error_t iso7816_reset_retry_counter_with_rc (int slot, int chvno, const char *data, size_t datalen) { int sw; if (!data || !datalen ) return gpg_error (GPG_ERR_INV_VALUE); sw = apdu_send_simple (slot, 0, 0x00, CMD_RESET_RETRY_COUNTER, 0, chvno, datalen, data); return map_sw (sw); } gpg_error_t iso7816_reset_retry_counter (int slot, int chvno, const char *newchv, size_t newchvlen) { int sw; sw = apdu_send_simple (slot, 0, 0x00, CMD_RESET_RETRY_COUNTER, 2, chvno, newchvlen, newchv); return map_sw (sw); } /* Perform a SELECT DATA command to OCCURANCE of TAG. */ gpg_error_t iso7816_select_data (int slot, int occurrence, int tag) { int sw; int datalen; unsigned char data[7]; data[0] = 0x60; data[2] = 0x5c; if (tag <= 0xff) { data[3] = 1; data[4] = tag; datalen = 5; } else if (tag <= 0xffff) { data[3] = 2; data[4] = (tag >> 8); data[5] = tag; datalen = 6; } else { data[3] = 3; data[4] = (tag >> 16); data[5] = (tag >> 8); data[6] = tag; datalen = 7; } data[1] = datalen - 2; sw = apdu_send_le (slot, 0, 0x00, CMD_SELECT_DATA, occurrence, 0x04, datalen, data, 0, NULL, NULL); return map_sw (sw); } /* Perform a GET DATA command requesting TAG and storing the result in a newly allocated buffer at the address passed by RESULT. Return the length of this data at the address of RESULTLEN. */ gpg_error_t iso7816_get_data (int slot, int extended_mode, int tag, unsigned char **result, size_t *resultlen) { int sw; int le; if (!result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; if (extended_mode > 0 && extended_mode < 256) le = 65534; /* Not 65535 in case it is used as some special flag. */ else if (extended_mode > 0) le = extended_mode; else le = 256; sw = apdu_send_le (slot, extended_mode, 0x00, CMD_GET_DATA, ((tag >> 8) & 0xff), (tag & 0xff), -1, NULL, le, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } /* Perform a GET DATA command requesting TAG and storing the result in * a newly allocated buffer at the address passed by RESULT. Return * the length of this data at the address of RESULTLEN. This variant * is needed for long (3 octet) tags. */ gpg_error_t iso7816_get_data_odd (int slot, int extended_mode, unsigned int tag, unsigned char **result, size_t *resultlen) { int sw; int le; int datalen; unsigned char data[5]; if (!result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; if (extended_mode > 0 && extended_mode < 256) le = 65534; /* Not 65535 in case it is used as some special flag. */ else if (extended_mode > 0) le = extended_mode; else le = 256; data[0] = 0x5c; if (tag <= 0xff) { data[1] = 1; data[2] = tag; datalen = 3; } else if (tag <= 0xffff) { data[1] = 2; data[2] = (tag >> 8); data[3] = tag; datalen = 4; } else { data[1] = 3; data[2] = (tag >> 16); data[3] = (tag >> 8); data[4] = tag; datalen = 5; } sw = apdu_send_le (slot, extended_mode, 0x00, CMD_GET_DATA + 1, 0x3f, 0xff, datalen, data, le, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } /* Perform a PUT DATA command on card in SLOT. Write DATA of length DATALEN to TAG. EXTENDED_MODE controls whether extended length headers or command chaining is used instead of single length bytes. */ gpg_error_t iso7816_put_data (int slot, int extended_mode, int tag, const void *data, size_t datalen) { int sw; sw = apdu_send_simple (slot, extended_mode, 0x00, CMD_PUT_DATA, ((tag >> 8) & 0xff), (tag & 0xff), datalen, (const char*)data); return map_sw (sw); } /* Same as iso7816_put_data but uses an odd instruction byte. */ gpg_error_t iso7816_put_data_odd (int slot, int extended_mode, int tag, const void *data, size_t datalen) { int sw; sw = apdu_send_simple (slot, extended_mode, 0x00, CMD_PUT_DATA+1, ((tag >> 8) & 0xff), (tag & 0xff), datalen, (const char*)data); return map_sw (sw); } /* Manage Security Environment. This is a weird operation and there is no easy abstraction for it. Furthermore, some card seem to have a different interpretation of 7816-8 and thus we resort to let the caller decide what to do. */ gpg_error_t iso7816_manage_security_env (int slot, int p1, int p2, const unsigned char *data, size_t datalen) { int sw; if (p1 < 0 || p1 > 255 || p2 < 0 || p2 > 255 ) return gpg_error (GPG_ERR_INV_VALUE); sw = apdu_send_simple (slot, 0, 0x00, CMD_MSE, p1, p2, data? datalen : -1, (const char*)data); return map_sw (sw); } /* Perform the security operation COMPUTE DIGITAL SIGANTURE. On success 0 is returned and the data is available in a newly allocated buffer stored at RESULT with its length stored at RESULTLEN. For LE see do_generate_keypair. */ gpg_error_t iso7816_compute_ds (int slot, int extended_mode, const unsigned char *data, size_t datalen, int le, unsigned char **result, size_t *resultlen) { int sw; if (!data || !datalen || !result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; if (!extended_mode) le = 256; /* Ignore provided Le and use what apdu_send uses. */ else if (le >= 0 && le < 256) le = 256; sw = apdu_send_le (slot, extended_mode, 0x00, CMD_PSO, 0x9E, 0x9A, datalen, (const char*)data, le, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } /* Perform the security operation DECIPHER. PADIND is the padding indicator to be used. It should be 0 if no padding is required, a value of -1 suppresses the padding byte. On success 0 is returned and the plaintext is available in a newly allocated buffer stored at RESULT with its length stored at RESULTLEN. For LE see do_generate_keypair. */ gpg_error_t iso7816_decipher (int slot, int extended_mode, const unsigned char *data, size_t datalen, int le, int padind, unsigned char **result, size_t *resultlen) { int sw; unsigned char *buf; if (!data || !datalen || !result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; if (!extended_mode) le = 256; /* Ignore provided Le and use what apdu_send uses. */ else if (le >= 0 && le < 256) le = 256; if (padind >= 0) { /* We need to prepend the padding indicator. */ buf = xtrymalloc (datalen + 1); if (!buf) return gpg_error (gpg_err_code_from_errno (errno)); *buf = padind; /* Padding indicator. */ memcpy (buf+1, data, datalen); sw = apdu_send_le (slot, extended_mode, 0x00, CMD_PSO, 0x80, 0x86, datalen+1, (char*)buf, le, result, resultlen); xfree (buf); } else { sw = apdu_send_le (slot, extended_mode, 0x00, CMD_PSO, 0x80, 0x86, datalen, (const char *)data, le, result, resultlen); } if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } /* For LE see do_generate_keypair. */ gpg_error_t iso7816_internal_authenticate (int slot, int extended_mode, const unsigned char *data, size_t datalen, int le, unsigned char **result, size_t *resultlen) { int sw; if (!data || !datalen || !result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; if (!extended_mode) le = 256; /* Ignore provided Le and use what apdu_send uses. */ else if (le >= 0 && le < 256) le = 256; sw = apdu_send_le (slot, extended_mode, 0x00, CMD_INTERNAL_AUTHENTICATE, 0, 0, datalen, (const char*)data, le, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } /* For LE see do_generate_keypair. */ gpg_error_t iso7816_general_authenticate (int slot, int extended_mode, int algoref, int keyref, const unsigned char *data, size_t datalen, int le, unsigned char **result, size_t *resultlen) { int sw; if (!data || !datalen || !result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; if (!extended_mode) le = 256; /* Ignore provided Le and use what apdu_send uses. */ else if (le >= 0 && le < 256) le = 256; sw = apdu_send_le (slot, extended_mode, 0x00, CMD_GENERAL_AUTHENTICATE, algoref, keyref, datalen, (const char*)data, le, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } /* LE is the expected return length. This is usually 0 except if extended length mode is used and more than 256 byte will be returned. In that case a value of -1 uses a large default (e.g. 4096 bytes), a value larger 256 used that value. */ static gpg_error_t do_generate_keypair (int slot, int extended_mode, int p1, int p2, const char *data, size_t datalen, int le, unsigned char **result, size_t *resultlen) { int sw; if (!data || !datalen || !result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; sw = apdu_send_le (slot, extended_mode, 0x00, CMD_GENERATE_KEYPAIR, p1, p2, datalen, data, le >= 0 && le < 256? 256:le, result, resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } return 0; } gpg_error_t iso7816_generate_keypair (int slot, int extended_mode, int p1, int p2, const char *data, size_t datalen, int le, unsigned char **result, size_t *resultlen) { return do_generate_keypair (slot, extended_mode, p1, p2, data, datalen, le, result, resultlen); } gpg_error_t iso7816_read_public_key (int slot, int extended_mode, const char *data, size_t datalen, int le, unsigned char **result, size_t *resultlen) { return do_generate_keypair (slot, extended_mode, 0x81, 0, data, datalen, le, result, resultlen); } gpg_error_t iso7816_get_challenge (int slot, int length, unsigned char *buffer) { int sw; unsigned char *result; size_t resultlen, n; if (!buffer || length < 1) return gpg_error (GPG_ERR_INV_VALUE); do { result = NULL; n = length > 254? 254 : length; sw = apdu_send_le (slot, 0, 0x00, CMD_GET_CHALLENGE, 0, 0, -1, NULL, n, &result, &resultlen); if (sw != SW_SUCCESS) { /* Make sure that pending buffers are released. */ xfree (result); return map_sw (sw); } if (resultlen > n) resultlen = n; memcpy (buffer, result, resultlen); buffer += resultlen; length -= resultlen; xfree (result); } while (length > 0); return 0; } /* Perform a READ BINARY command requesting a maximum of NMAX bytes * from OFFSET. With NMAX = 0 the entire file is read. The result is * stored in a newly allocated buffer at the address passed by RESULT. * Returns the length of this data at the address of RESULTLEN. If * R_SW is not NULL the last status word is stored there. */ gpg_error_t iso7816_read_binary_ext (int slot, int extended_mode, size_t offset, size_t nmax, unsigned char **result, size_t *resultlen, int *r_sw) { int sw; unsigned char *buffer; size_t bufferlen; int read_all = !nmax; size_t n; if (r_sw) *r_sw = 0; if (!result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; /* We can only encode 15 bits in p0,p1 to indicate an offset. Thus we check for this limit. */ if (offset > 32767) return gpg_error (GPG_ERR_INV_VALUE); do { buffer = NULL; bufferlen = 0; n = read_all? 0 : nmax; sw = apdu_send_le (slot, extended_mode, 0x00, CMD_READ_BINARY, ((offset>>8) & 0xff), (offset & 0xff) , -1, NULL, n, &buffer, &bufferlen); if ( SW_EXACT_LENGTH_P(sw) ) { n = (sw & 0x00ff); sw = apdu_send_le (slot, extended_mode, 0x00, CMD_READ_BINARY, ((offset>>8) & 0xff), (offset & 0xff) , -1, NULL, n, &buffer, &bufferlen); } if (r_sw) *r_sw = sw; if (*result && sw == SW_BAD_P0_P1) { /* Bad Parameter means that the offset is outside of the EF. When reading all data we take this as an indication for EOF. */ break; } if (sw != SW_SUCCESS && sw != SW_EOF_REACHED) { /* Make sure that pending buffers are released. */ xfree (buffer); xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } if (*result) /* Need to extend the buffer. */ { unsigned char *p = xtryrealloc (*result, *resultlen + bufferlen); if (!p) { gpg_error_t err = gpg_error_from_syserror (); xfree (buffer); xfree (*result); *result = NULL; *resultlen = 0; return err; } *result = p; memcpy (*result + *resultlen, buffer, bufferlen); *resultlen += bufferlen; xfree (buffer); buffer = NULL; } else /* Transfer the buffer into our result. */ { *result = buffer; *resultlen = bufferlen; } offset += bufferlen; if (offset > 32767) break; /* We simply truncate the result for too large files. */ if (nmax > bufferlen) nmax -= bufferlen; else nmax = 0; } while ((read_all && sw != SW_EOF_REACHED) || (!read_all && nmax)); return 0; } gpg_error_t iso7816_read_binary (int slot, size_t offset, size_t nmax, unsigned char **result, size_t *resultlen) { return iso7816_read_binary_ext (slot, 0, offset, nmax, result, resultlen, NULL); } /* Perform a READ RECORD command. RECNO gives the record number to read with 0 indicating the current record. RECCOUNT must be 1 (not all cards support reading of more than one record). SHORT_EF should be 0 to read the current EF or contain a short EF. The result is stored in a newly allocated buffer at the address passed by RESULT. Returns the length of this data at the address of RESULTLEN. If R_SW is not NULL the last status word is stored there. */ gpg_error_t iso7816_read_record_ext (int slot, int recno, int reccount, int short_ef, unsigned char **result, size_t *resultlen, int *r_sw) { int sw; unsigned char *buffer; size_t bufferlen; if (r_sw) *r_sw = 0; if (!result || !resultlen) return gpg_error (GPG_ERR_INV_VALUE); *result = NULL; *resultlen = 0; /* We can only encode 15 bits in p0,p1 to indicate an offset. Thus we check for this limit. */ if (recno < 0 || recno > 255 || reccount != 1 || short_ef < 0 || short_ef > 254 ) return gpg_error (GPG_ERR_INV_VALUE); buffer = NULL; bufferlen = 0; sw = apdu_send_le (slot, 0, 0x00, CMD_READ_RECORD, recno, short_ef? short_ef : 0x04, -1, NULL, 0, &buffer, &bufferlen); if (r_sw) *r_sw = sw; if (sw != SW_SUCCESS && sw != SW_EOF_REACHED) { /* Make sure that pending buffers are released. */ xfree (buffer); xfree (*result); *result = NULL; *resultlen = 0; return map_sw (sw); } *result = buffer; *resultlen = bufferlen; return 0; } gpg_error_t iso7816_read_record (int slot, int recno, int reccount, int short_ef, unsigned char **result, size_t *resultlen) { return iso7816_read_record_ext (slot, recno, reccount, short_ef, result, resultlen, NULL); } /* Perform an UPDATE BINARY command on card in SLOT. Write DATA of * length DATALEN to a transparent file at OFFSET. */ gpg_error_t iso7816_update_binary (int slot, int extended_mode, size_t offset, const void *data, size_t datalen) { int sw; /* We can only encode 15 bits in p0,p1 to indicate an offset. Thus * we check for this limit. */ if (offset > 32767) return gpg_error (GPG_ERR_INV_VALUE); sw = apdu_send_simple (slot, extended_mode, 0x00, CMD_UPDATE_BINARY, ((offset>>8) & 0xff), (offset & 0xff), datalen, (const char*)data); return map_sw (sw); }