/* app.c - Application selection. * Copyright (C) 2003, 2004, 2005 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 #include #include "scdaemon.h" #include "../common/exechelp.h" #include "iso7816.h" #include "apdu.h" #include "../common/tlv.h" #include "../common/membuf.h" /* Forward declaration of internal function. */ static gpg_error_t select_additional_application_internal (card_t card, apptype_t req_apptype); static gpg_error_t send_serialno_and_app_status (card_t card, int with_apps, ctrl_t ctrl); static gpg_error_t run_reselect (ctrl_t ctrl, card_t c, app_t a, app_t a_prev); /* * Multiple readers, single writer (MRSW) lock. */ struct mrsw_lock { npth_mutex_t lock; npth_cond_t cond; int num_readers_active; int num_writers_waiting; int writer_active; npth_cond_t notify_cond; }; /* MRSW lock to protect the list of cards. * * This structure is used for serializing access to the list of cards * (by CARD_TOP). While allowing multiple accesses by different * connections as "r" access (for a CARD in the list), "w" access to * update the list is only possible with a single thread. * * Each use of a CARD (in the list) does "r" access. * * For "w" access, the app_send_devinfo function may wait on any * change of the list. For other cases of "w" access are opening new * card or removal of card, updating the list of card. * * Note that for serializing access to each CARD (and its associated * applications) itself, it is done separately by another mutex with * lock_card/unlock_card. */ static struct mrsw_lock card_list_lock; /* A list of card contexts. A card is a collection of applications * (described by app_t) on the same physical token. */ static card_t card_top; /* The list of application names and their select function. If no * specific application is selected the first available application on * a card is selected. */ struct app_priority_list_s { apptype_t apptype; char const *name; gpg_error_t (*select_func)(app_t); }; static struct app_priority_list_s app_priority_list[] = {{ APPTYPE_OPENPGP , "openpgp", app_select_openpgp }, { APPTYPE_PIV , "piv", app_select_piv }, { APPTYPE_NKS , "nks", app_select_nks }, { APPTYPE_P15 , "p15", app_select_p15 }, { APPTYPE_GELDKARTE, "geldkarte", app_select_geldkarte }, { APPTYPE_DINSIG , "dinsig", app_select_dinsig }, { APPTYPE_SC_HSM , "sc-hsm", app_select_sc_hsm }, { APPTYPE_NONE , NULL, NULL } /* APPTYPE_UNDEFINED is special and not listed here. */ }; /* Map a cardtype to a string. Never returns NULL. */ const char * strcardtype (cardtype_t t) { switch (t) { case CARDTYPE_GENERIC: return "generic"; case CARDTYPE_GNUK: return "gnuk"; case CARDTYPE_YUBIKEY: return "yubikey"; case CARDTYPE_ZEITCONTROL: return "zeitcontrol"; case CARDTYPE_SCE7: return "smartcafe"; } return "?"; } /* Map an application type to a string. Never returns NULL. */ const char * strapptype (apptype_t t) { int i; for (i=0; app_priority_list[i].apptype; i++) if (app_priority_list[i].apptype == t) return app_priority_list[i].name; return t == APPTYPE_UNDEFINED? "undefined" : t? "?" : "none"; } const char * xstrapptype (app_t app) { return app? strapptype (app->apptype) : "[no_app]"; } /* Return the apptype for NAME. */ static apptype_t apptype_from_name (const char *name) { int i; if (!name) return APPTYPE_NONE; for (i=0; app_priority_list[i].apptype; i++) if (!ascii_strcasecmp (app_priority_list[i].name, name)) return app_priority_list[i].apptype; if (!ascii_strcasecmp ("undefined", name)) return APPTYPE_UNDEFINED; return APPTYPE_NONE; } /* Return the apptype for KEYREF. This is the first part of the * KEYREF up to the dot. */ static apptype_t apptype_from_keyref (const char *keyref) { int i; unsigned int n; const char *s; if (!keyref) return APPTYPE_NONE; s = strchr (keyref, '.'); if (!s || s == keyref || !s[1]) return APPTYPE_NONE; /* Not a valid keyref. */ n = s - keyref; for (i=0; app_priority_list[i].apptype; i++) if (strlen (app_priority_list[i].name) == n && !ascii_strncasecmp (app_priority_list[i].name, keyref, n)) return app_priority_list[i].apptype; return APPTYPE_NONE; } /* Return true if both serilanumbers are the same. This function * takes care of some peculiarities. */ static int is_same_serialno (const unsigned char *sna, size_t snalen, const unsigned char *snb, size_t snblen) { if ((!sna && !snb) || (!snalen && !snblen)) return 1; if (!sna || !snb) return 0; /* One of them is NULL. (Both NULL tested above). */ if (snalen != snblen) return 0; /* (No special cases for this below). */ /* The special case for OpenPGP cards where we ignore the version * bytes (vvvv). Example: D276000124010304000500009D8A0000 * ^^^^^^^^^^^^vvvvmmmmssssssssrrrr */ if (snalen == 16 && !memcmp (sna, "\xD2\x76\x00\x01\x24\x01", 6)) { if (memcmp (snb, "\xD2\x76\x00\x01\x24\x01", 6)) return 0; /* No */ return !memcmp (sna + 8, snb + 8, 8); } return !memcmp (sna, snb, snalen); } /* Initialization function to change the default app_priority_list. * LIST is a list of comma or space separated strings with application * names. Unknown names will only result in warning message. * Application not mentioned in LIST are used in their original order * after the given once. */ void app_update_priority_list (const char *arg) { struct app_priority_list_s save; char **names; int i, j, idx; names = strtokenize (arg, ", "); if (!names) log_fatal ("strtokenize failed: %s\n", gpg_strerror (gpg_error_from_syserror ())); idx = 0; for (i=0; names[i]; i++) { ascii_strlwr (names[i]); for (j=0; j < i; j++) if (!strcmp (names[j], names[i])) break; if (j < i) { log_info ("warning: duplicate application '%s' in priority list\n", names[i]); continue; } for (j=idx; app_priority_list[j].name; j++) if (!strcmp (names[i], app_priority_list[j].name)) break; if (!app_priority_list[j].name) { log_info ("warning: unknown application '%s' in priority list\n", names[i]); continue; } save = app_priority_list[idx]; app_priority_list[idx] = app_priority_list[j]; app_priority_list[j] = save; idx++; } log_assert (idx < DIM (app_priority_list)); xfree (names); for (i=0; app_priority_list[i].name; i++) log_info ("app priority %d: %s\n", i, app_priority_list[i].name); } static void print_progress_line (void *opaque, const char *what, int pc, int cur, int tot) { ctrl_t ctrl = opaque; char line[100]; if (ctrl) { snprintf (line, sizeof line, "%s %c %d %d", what, pc, cur, tot); send_status_direct (ctrl, "PROGRESS", line); } } /* Lock the CARD. This function shall be used right before calling * any of the actual application functions to serialize access to the * reader. We do this always even if the card is not actually used. * This allows an actual connection to assume that it never shares a * card (while performing one command). Returns 0 on success; only * then the unlock_reader function must be called after returning from * the handler. Right now we assume a that a reader has just one * card; this may eventually need refinement. */ static gpg_error_t lock_card (card_t card, ctrl_t ctrl) { if (npth_mutex_lock (&card->lock)) { gpg_error_t err = gpg_error_from_syserror (); log_error ("failed to acquire CARD lock for %p: %s\n", card, gpg_strerror (err)); return err; } apdu_set_progress_cb (card->slot, print_progress_line, ctrl); apdu_set_prompt_cb (card->slot, popup_prompt, ctrl); return 0; } /* Release a lock on a card. See lock_reader(). */ static void unlock_card (card_t card) { apdu_set_progress_cb (card->slot, NULL, NULL); apdu_set_prompt_cb (card->slot, NULL, NULL); if (npth_mutex_unlock (&card->lock)) { gpg_error_t err = gpg_error_from_syserror (); log_error ("failed to release CARD lock for %p: %s\n", card, gpg_strerror (err)); } } static void card_list_r_lock (void) { npth_mutex_lock (&card_list_lock.lock); while (card_list_lock.num_writers_waiting || card_list_lock.writer_active) npth_cond_wait (&card_list_lock.cond, &card_list_lock.lock); card_list_lock.num_readers_active++; npth_mutex_unlock (&card_list_lock.lock); } static void card_list_r_unlock (void) { npth_mutex_lock (&card_list_lock.lock); if (--card_list_lock.num_readers_active == 0) npth_cond_broadcast (&card_list_lock.cond); npth_mutex_unlock (&card_list_lock.lock); } static void card_list_w_lock (void) { npth_mutex_lock (&card_list_lock.lock); card_list_lock.num_writers_waiting++; while (card_list_lock.num_readers_active || card_list_lock.writer_active) npth_cond_wait (&card_list_lock.cond, &card_list_lock.lock); card_list_lock.num_writers_waiting--; card_list_lock.writer_active++; npth_mutex_unlock (&card_list_lock.lock); } static void card_list_w_unlock (void) { npth_mutex_lock (&card_list_lock.lock); card_list_lock.writer_active--; npth_cond_broadcast (&card_list_lock.cond); npth_mutex_unlock (&card_list_lock.lock); } static void card_list_signal (void) { npth_cond_broadcast (&card_list_lock.notify_cond); } static void card_list_wait (void) { npth_mutex_lock (&card_list_lock.lock); card_list_lock.writer_active--; npth_cond_broadcast (&card_list_lock.cond); npth_cond_wait (&card_list_lock.notify_cond, &card_list_lock.lock); card_list_lock.num_writers_waiting++; while (card_list_lock.num_readers_active || card_list_lock.writer_active) npth_cond_wait (&card_list_lock.cond, &card_list_lock.lock); card_list_lock.num_writers_waiting--; card_list_lock.writer_active++; npth_mutex_unlock (&card_list_lock.lock); } /* This function may be called to print information pertaining to the * current state of this module to the log. */ void app_dump_state (void) { card_t c; app_t a; card_list_r_lock (); for (c = card_top; c; c = c->next) { log_info ("app_dump_state: card=%p slot=%d type=%s refcount=%u\n", c, c->slot, strcardtype (c->cardtype), c->ref_count); /* FIXME The use of log_info risks a race! */ for (a=c->app; a; a = a->next) log_info ("app_dump_state: app=%p type='%s'\n", a, strapptype (a->apptype)); } card_list_r_unlock (); } /* * Send information for all available cards. * * With KEEP_LOOPING=0, it only outputs once. * With KEEP_LOOPING<0, it keeps looping, until it detects no device. * With KEEP_LOOPING>0, it keeps looping forever. */ gpg_error_t app_send_devinfo (ctrl_t ctrl, int keep_looping) { card_t c; app_t a; int no_device; card_list_w_lock (); while (1) { no_device = (card_top == NULL); if (no_device && keep_looping < 0) break; send_status_direct (ctrl, "DEVINFO_START", ""); for (c = card_top; c; c = c->next) { char *serialno; char card_info[80]; serialno = card_get_serialno (c); snprintf (card_info, sizeof card_info, "DEVICE %s %s", strcardtype (c->cardtype), serialno); xfree (serialno); for (a = c->app; a; a = a->next) send_status_direct (ctrl, card_info, strapptype (a->apptype)); } send_status_direct (ctrl, "DEVINFO_END", ""); if (keep_looping == 0) break; card_list_wait (); } card_list_w_unlock (); return no_device ? gpg_error (GPG_ERR_NOT_FOUND): 0; } /* Check whether the application NAME is allowed. This does not mean we have support for it though. */ static int is_app_allowed (const char *name) { strlist_t l; for (l=opt.disabled_applications; l; l = l->next) if (!strcmp (l->d, name)) return 0; /* no */ return 1; /* yes */ } /* This function is mainly used by the serialno command to check for * an application conflict which may appear if the serialno command is * used to request a specific application and the connection has * already done a select_application. Return values are: * 0 - No conflict * GPG_ERR_FALSE - Another application is in use but it is possible * to switch to the requested application. * Other code - Switching is not possible. * * If SERIALNO_BIN is not NULL a conflict is only asserted if the * serialno of the card matches. */ gpg_error_t check_application_conflict (card_t card, const char *name, const unsigned char *serialno_bin, size_t serialno_bin_len) { apptype_t apptype; if (!card || !name) return 0; if (!card->app) return gpg_error (GPG_ERR_CARD_NOT_INITIALIZED); /* Should not happen. */ if (serialno_bin && card->serialno) { if (!is_same_serialno (card->serialno, card->serialnolen, serialno_bin, serialno_bin_len)) return 0; /* The card does not match the requested S/N. */ } apptype = apptype_from_name (name); if (card->app->apptype == apptype) return 0; if (card->app->apptype == APPTYPE_UNDEFINED) return 0; if (card->cardtype == CARDTYPE_YUBIKEY) { if (card->app->apptype == APPTYPE_OPENPGP) { /* Current app is OpenPGP. */ if (!ascii_strcasecmp (name, "piv")) return gpg_error (GPG_ERR_FALSE); /* Switching allowed. */ } else if (card->app->apptype == APPTYPE_PIV) { /* Current app is PIV. */ if (!ascii_strcasecmp (name, "openpgp")) return gpg_error (GPG_ERR_FALSE); /* Switching allowed. */ } } log_info ("application '%s' in use - can't switch\n", strapptype (card->app->apptype)); return gpg_error (GPG_ERR_CONFLICT); } gpg_error_t card_reset (card_t card) { gpg_error_t err = 0; int sw; sw = apdu_reset (card->slot); if (sw) err = gpg_error (GPG_ERR_CARD_RESET); card->reset_requested = 1; scd_kick_the_loop (); gnupg_sleep (1); return err; } /* Return the card type from (ATR,ATRLEN) or CARDTYPE_GENERIC in case * of error or if the ATR was not found. If ATR is NULL, SLOT is used * to retrieve the ATR from the reader. */ static cardtype_t atr_to_cardtype (int slot, const unsigned char *atr, size_t atrlen) { #define X(a) ((unsigned char const *)(a)) static struct { size_t atrlen; unsigned char const *atr; cardtype_t type; } atrlist[] = { { 19, X("\x3b\xf9\x96\x00\x00\x80\x31\xfe" "\x45\x53\x43\x45\x37\x20\x0f\x00\x20\x46\x4e"), CARDTYPE_SCE7 }, { 0 } }; #undef X unsigned char *atrbuf = NULL; cardtype_t cardtype = 0; int i; if (atr) { atrbuf = apdu_get_atr (slot, &atrlen); if (!atrbuf) return 0; atr = atrbuf; } for (i=0; atrlist[i].atrlen; i++) if (atrlist[i].atrlen == atrlen && !memcmp (atrlist[i].atr, atr, atrlen)) { cardtype = atrlist[i].type; break; } xfree (atrbuf); return cardtype; } static gpg_error_t app_new_register (int slot, ctrl_t ctrl, const char *name, int periodical_check_needed) { gpg_error_t err = 0; card_t card = NULL; app_t app = NULL; unsigned char *result = NULL; size_t resultlen; int want_undefined; int i; /* Need to allocate a new card object */ card = xtrycalloc (1, sizeof *card); if (!card) { err = gpg_error_from_syserror (); log_info ("error allocating context: %s\n", gpg_strerror (err)); return err; } card->slot = slot; card->card_status = (unsigned int)-1; if (npth_mutex_init (&card->lock, NULL)) { err = gpg_error_from_syserror (); log_error ("error initializing mutex: %s\n", gpg_strerror (err)); xfree (card); return err; } err = lock_card (card, ctrl); if (err) { xfree (card); return err; } want_undefined = (name && !strcmp (name, "undefined")); /* Try to read the GDO file first to get a default serial number. We skip this if the undefined application has been requested. */ if (!want_undefined) { err = iso7816_select_file (slot, 0x3F00, 1); if (gpg_err_code (err) == GPG_ERR_CARD) { /* Might be SW==0x7D00. Let's test whether it is a Yubikey * by selecting its manager application and then reading the * config. */ static char const yk_aid[] = { 0xA0, 0x00, 0x00, 0x05, 0x27, 0x47, 0x11, 0x17 }; /*MGR*/ static char const otp_aid[] = { 0xA0, 0x00, 0x00, 0x05, 0x27, 0x20, 0x01 }; /*OTP*/ unsigned char *buf; size_t buflen; const unsigned char *s0; unsigned char formfactor; size_t n; if (!iso7816_select_application (slot, yk_aid, sizeof yk_aid, 0x0001) && !iso7816_apdu_direct (slot, "\x00\x1d\x00\x00\x00", 5, 0, NULL, &buf, &buflen)) { card->cardtype = CARDTYPE_YUBIKEY; if (opt.verbose) { log_info ("Yubico: config="); log_printhex (buf, buflen, ""); } /* We skip the first byte which seems to be the total * length of the config data. */ if (buflen > 1) { s0 = find_tlv (buf+1, buflen-1, 0x04, &n); /* Form factor */ formfactor = (s0 && n == 1)? *s0 : 0; s0 = find_tlv (buf+1, buflen-1, 0x02, &n); /* Serial */ if (s0 && n <= 4) { card->serialno = xtrymalloc (3 + 1 + 4); if (card->serialno) { card->serialnolen = 3 + 1 + 4; card->serialno[0] = 0xff; card->serialno[1] = 0x02; card->serialno[2] = 0x0; card->serialno[3] = formfactor; memset (card->serialno + 4, 0, 4 - n); memcpy (card->serialno + 4 + 4 - n, s0, n); err = app_munge_serialno (card); } } s0 = find_tlv (buf+1, buflen-1, 0x05, &n); /* version */ if (s0 && n == 3) card->cardversion = ((s0[0]<<16)|(s0[1]<<8)|s0[2]); else if (!s0) { /* No version - this is not a Yubikey 5. We now * switch to the OTP app and take the first * three bytes of the response as version * number. */ xfree (buf); buf = NULL; if (!iso7816_select_application_ext (slot, otp_aid, sizeof otp_aid, 1, &buf, &buflen) && buflen > 3) card->cardversion = ((buf[0]<<16)|(buf[1]<<8)|buf[2]); } } xfree (buf); } else card->cardtype = atr_to_cardtype (slot, NULL, 0); } else /* Got 3F00 */ { unsigned char *atr; size_t atrlen; /* This is heuristics to identify different implementations. */ /* FIXME: The first two checks are pretty OpenPGP card specific. */ atr = apdu_get_atr (slot, &atrlen); if (atr) { if (atrlen == 21 && atr[2] == 0x11) card->cardtype = CARDTYPE_GNUK; else if (atrlen == 21 && atr[7] == 0x75) card->cardtype = CARDTYPE_ZEITCONTROL; else card->cardtype = atr_to_cardtype (slot, atr, atrlen); xfree (atr); } } if (!err && card->cardtype != CARDTYPE_YUBIKEY) err = iso7816_select_file (slot, 0x2F02, 0); if (!err && card->cardtype != CARDTYPE_YUBIKEY) err = iso7816_read_binary (slot, 0, 0, &result, &resultlen); if (!err && card->cardtype != CARDTYPE_YUBIKEY) { size_t n; const unsigned char *p; p = find_tlv_unchecked (result, resultlen, 0x5A, &n); if (p) resultlen -= (p-result); if (p && n > resultlen && n == 0x0d && resultlen+1 == n) { /* The object does not fit into the buffer. This is an invalid encoding (or the buffer is too short. However, I have some test cards with such an invalid encoding and therefore I use this ugly workaround to return something I can further experiment with. */ log_info ("enabling BMI testcard workaround\n"); n--; } if (p && n <= resultlen) { /* The GDO file is pretty short, thus we simply reuse it for storing the serial number. */ memmove (result, p, n); card->serialno = result; card->serialnolen = n; err = app_munge_serialno (card); if (err) goto leave; } else xfree (result); result = NULL; } } /* Allocate a new app object. */ app = xtrycalloc (1, sizeof *app); if (!app) { err = gpg_error_from_syserror (); log_info ("error allocating app context: %s\n", gpg_strerror (err)); goto leave; } card->app = app; app->card = card; /* Figure out the application to use. */ if (want_undefined) { /* We switch to the "undefined" application only if explicitly requested. */ app->apptype = APPTYPE_UNDEFINED; /* Clear the error so that we don't run through the application * selection chain. */ err = 0; } else { /* For certain error codes, there is no need to try more. */ if (gpg_err_code (err) == GPG_ERR_CARD_NOT_PRESENT || gpg_err_code (err) == GPG_ERR_ENODEV) goto leave; /* Set a default error so that we run through the application * selection chain. */ err = gpg_error (GPG_ERR_NOT_FOUND); } /* Find the first available app if NAME is NULL or the matching * NAME but only if that application is also enabled. */ for (i=0; err && app_priority_list[i].name; i++) { if (is_app_allowed (app_priority_list[i].name) && (!name || !strcmp (name, app_priority_list[i].name))) err = app_priority_list[i].select_func (app); } if (err && name && gpg_err_code (err) != GPG_ERR_OBJ_TERM_STATE) err = gpg_error (GPG_ERR_NOT_SUPPORTED); leave: if (err) { if (name) log_info ("can't select application '%s': %s\n", name, gpg_strerror (err)); else log_info ("no supported card application found: %s\n", gpg_strerror (err)); unlock_card (card); xfree (app); xfree (card); return err; } card->periodical_check_needed = periodical_check_needed; card->next = card_top; card_top = card; unlock_card (card); return 0; } /* If called with NAME as NULL, select the best fitting application * and return its card context; otherwise select the application with * NAME and return its card context. Returns an error code and stores * NULL at R_CARD if no application was found or no card is present. */ gpg_error_t select_application (ctrl_t ctrl, const char *name, int scan, const unsigned char *serialno_bin, size_t serialno_bin_len) { gpg_error_t err = 0; card_t card, card_prev = NULL; card_list_w_lock (); ctrl->card_ctx = NULL; if (scan || !card_top) { struct dev_list *l; int new_card = 0; /* Scan the devices to find new device(s). */ err = apdu_dev_list_start (opt.reader_port, &l); if (err) { card_list_w_unlock (); return err; } while (1) { int slot; int periodical_check_needed_this; slot = apdu_open_reader (l); if (slot < 0) break; periodical_check_needed_this = apdu_connect (slot); if (periodical_check_needed_this < 0) { /* We close a reader with no card. */ err = gpg_error (GPG_ERR_ENODEV); } else { err = app_new_register (slot, ctrl, name, periodical_check_needed_this); new_card++; } if (err) { pincache_put (ctrl, slot, NULL, NULL, NULL, 0); apdu_close_reader (slot); } } apdu_dev_list_finish (l); /* If new device(s), kick the scdaemon loop. */ if (new_card) scd_kick_the_loop (); } for (card = card_top; card; card = card->next) { lock_card (card, ctrl); if (serialno_bin == NULL) break; if (is_same_serialno (card->serialno, card->serialnolen, serialno_bin, serialno_bin_len)) break; unlock_card (card); card_prev = card; } if (card) { err = check_application_conflict (card, name, NULL, 0); if (!err) ctrl->current_apptype = card->app ? card->app->apptype : APPTYPE_NONE; else if (gpg_err_code (err) == GPG_ERR_FALSE) { apptype_t req_apptype = apptype_from_name (name); if (!req_apptype) err = gpg_error (GPG_ERR_NOT_FOUND); else { err = select_additional_application_internal (card, req_apptype); if (!err) ctrl->current_apptype = req_apptype; } } if (!err) { card->ref_count++; ctrl->card_ctx = card; if (card_prev) { card_prev->next = card->next; card->next = card_top; card_top = card; } } unlock_card (card); } else err = gpg_error (GPG_ERR_ENODEV); card_list_w_unlock (); return err; } /* Switch the current card for the session CTRL and print a SERIALNO * status line on success. (SERIALNO, SERIALNOLEN) is the binary s/n * of the card to switch to. */ gpg_error_t app_switch_current_card (ctrl_t ctrl, const unsigned char *serialno, size_t serialnolen) { gpg_error_t err; card_t card, cardtmp; card_list_r_lock (); cardtmp = ctrl->card_ctx; if (!cardtmp) { err = gpg_error (GPG_ERR_CARD_NOT_INITIALIZED); goto leave; } if (serialno && serialnolen) { for (card = card_top; card; card = card->next) { if (is_same_serialno (card->serialno, card->serialnolen, serialno, serialnolen)) break; } if (!card) { err = gpg_error (GPG_ERR_NOT_FOUND); goto leave; } /* Note: We do not lock CARD and CARDTMP here because we only * swap the context of the current session and there is no * chance of a context switch. This also works if the card * stays the same. */ ctrl->card_ctx = card; card->ref_count++; card_unref_locked (cardtmp); } /* Print the status line. */ err = send_serialno_and_app_status (ctrl->card_ctx, 0, ctrl); leave: card_list_r_unlock (); return err; } static gpg_error_t select_additional_application_internal (card_t card, apptype_t req_apptype) { gpg_error_t err = 0; app_t app; int i; /* Check that the requested app has not yet been put onto the list. */ for (app = card->app; app; app = app->next) if (app->apptype == req_apptype) { /* We already got this one. Note that in this case we don't * make it the current one but it doesn't matter because * maybe_switch_app will do that anyway. */ err = 0; app = NULL; goto leave; } /* Allocate a new app object. */ app = xtrycalloc (1, sizeof *app); if (!app) { err = gpg_error_from_syserror (); log_info ("error allocating app context: %s\n", gpg_strerror (err)); goto leave; } app->card = card; /* Find the app and run the select. */ for (i=0; app_priority_list[i].apptype; i++) { if (app_priority_list[i].apptype == req_apptype && is_app_allowed (app_priority_list[i].name)) { err = app_priority_list[i].select_func (app); break; } } if (!app_priority_list[i].apptype || (err && gpg_err_code (err) != GPG_ERR_OBJ_TERM_STATE)) err = gpg_error (GPG_ERR_NOT_SUPPORTED); if (err) goto leave; /* Add this app. We make it the current one to avoid an extra * reselect by maybe_switch_app after the select we just did. */ app->next = card->app; card->app = app; log_info ("added app '%s' to the card context and switched\n", strapptype (app->apptype)); leave: if (err) xfree (app); return err; } /* Add all possible additional applications to the card context but do * not change the current one. This currently works only for Yubikeys. */ static gpg_error_t select_all_additional_applications_internal (ctrl_t ctrl, card_t card) { gpg_error_t err = 0; apptype_t candidates[3]; int i, j; int any_new = 0; if (card->cardtype == CARDTYPE_YUBIKEY) { candidates[0] = APPTYPE_OPENPGP; candidates[1] = APPTYPE_PIV; candidates[2] = APPTYPE_NONE; } else { candidates[0] = APPTYPE_NONE; } /* Find the app and run the select. */ for (i=0; app_priority_list[i].apptype; i++) { app_t app, app_r, app_prev; for (j=0; candidates[j]; j++) if (candidates[j] == app_priority_list[i].apptype && is_app_allowed (app_priority_list[i].name)) break; if (!candidates[j]) continue; for (app = card->app; app; app = app->next) if (app->apptype == candidates[j]) break; if (app) continue; /* Already on the list of apps. */ app = xtrycalloc (1, sizeof *app); if (!app) { err = gpg_error_from_syserror (); log_info ("error allocating app context: %s\n", gpg_strerror (err)); goto leave; } app->card = card; err = app_priority_list[i].select_func (app); if (err) { log_error ("error selecting additional app '%s': %s - skipped\n", strapptype (candidates[j]), gpg_strerror (err)); err = 0; xfree (app); } else { /* Append to the list of apps. */ app_prev = card->app; for (app_r=app_prev->next; app_r; app_prev=app_r, app_r=app_r->next) ; app_prev->next = app; log_info ("added app '%s' to the card context\n", strapptype (app->apptype)); any_new = 1; } } /* If we found a new application we need to reselect the original * application so that we are in a well defined state. */ if (!err && any_new && card->app && card->app->fnc.reselect) err = run_reselect (ctrl, card, card->app, NULL); leave: return err; } /* This function needs to be called with the NAME of the new * application to be selected on CARD. On success the application is * added to the list of the card's active applications as currently * active application. On error no new application is allocated. * Selecting an already selected application has no effect. */ gpg_error_t select_additional_application (card_t card, ctrl_t ctrl, const char *name) { gpg_error_t err = 0; apptype_t req_apptype; if (!name) req_apptype = 0; else { req_apptype = apptype_from_name (name); if (!req_apptype) return gpg_error (GPG_ERR_NOT_FOUND); } if (req_apptype) { err = select_additional_application_internal (card, req_apptype); if (!err) { ctrl->current_apptype = req_apptype; if (DBG_APP) log_debug ("current_apptype is set to %s\n", name); } } else { err = select_all_additional_applications_internal (ctrl, card); } return err; } char * get_supported_applications (void) { int idx; size_t nbytes; char *buffer, *p; const char *s; for (nbytes=1, idx=0; (s=app_priority_list[idx].name); idx++) nbytes += strlen (s) + 1 + 1; buffer = xtrymalloc (nbytes); if (!buffer) return NULL; for (p=buffer, idx=0; (s=app_priority_list[idx].name); idx++) if (is_app_allowed (s)) p = stpcpy (stpcpy (p, s), ":\n"); *p = 0; return buffer; } /* Deallocate the application. */ static void deallocate_card (card_t card) { card_t c, c_prev = NULL; app_t a, anext; for (c = card_top; c; c = c->next) if (c == card) { if (c_prev == NULL) card_top = c->next; else c_prev->next = c->next; break; } else c_prev = c; if (card->ref_count) log_error ("releasing still used card context (%d)\n", card->ref_count); for (a = card->app; a; a = anext) { if (a->fnc.deinit) { a->fnc.deinit (a); a->fnc.deinit = NULL; } anext = a->next; xfree (a); } xfree (card->serialno); unlock_card (card); xfree (card); } static card_t do_with_keygrip (ctrl_t ctrl, int action, const char *keygrip_str, int capability) { int locked = 0; card_t c; app_t a, a_prev; for (c = card_top; c; c = c->next) { if (lock_card (c, ctrl)) { c = NULL; goto leave_the_loop; } locked = 1; a_prev = NULL; for (a = c->app; a; a = a->next) { if (!a->fnc.with_keygrip || a->need_reset) continue; /* Note that we need to do a re-select even for the current * app because the last selected application (e.g. after * init) might be a different one and we do not run * maybe_switch_app here. Of course we we do this only iff * we have an additional app. */ if (c->app->next) { if (run_reselect (ctrl, c, a, a_prev)) continue; } a_prev = a; if (DBG_APP) log_debug ("slot %d, app %s: calling with_keygrip(%s)\n", c->slot, xstrapptype (a), action == KEYGRIP_ACTION_SEND_DATA? "send_data": action == KEYGRIP_ACTION_WRITE_STATUS? "status": action == KEYGRIP_ACTION_LOOKUP? "lookup":"?"); if (!a->fnc.with_keygrip (a, ctrl, action, keygrip_str, capability)) goto leave_the_loop; /* ACTION_LOOKUP succeeded. */ } /* Select the first app again. */ if (c->app->next) run_reselect (ctrl, c, c->app, a_prev); unlock_card (c); locked = 0; } leave_the_loop: /* Force switching of the app if the selected one is not the current * one. Changing the current apptype is sufficient to do this. */ if (c && c->app && c->app->apptype != a->apptype) ctrl->current_apptype = a->apptype; if (locked && c) { unlock_card (c); locked = 0; } return c; } /* Locking access to the card-list and CARD, returns CARD. */ card_t card_get (ctrl_t ctrl, const char *keygrip) { card_t card; card_list_r_lock (); if (keygrip) card = do_with_keygrip (ctrl, KEYGRIP_ACTION_LOOKUP, keygrip, 0); else card = ctrl->card_ctx; if (!card) { card_list_r_unlock (); return NULL; } lock_card (card, NULL); return card; } /* Release the lock of CARD and the card-list. */ void card_put (card_t card) { /* We don't deallocate CARD here. Instead, we keep it. This is useful so that a card does not get reset even if only one session is using the card - this way the PIN cache and other cached data are preserved. */ unlock_card (card); card_list_r_unlock (); } /* This is the same as card_unref but assumes that CARD is already * locked. */ void card_unref_locked (card_t card) { if (!card) return; if (!card->ref_count) log_bug ("tried to release an already released card context\n"); --card->ref_count; } /* The serial number may need some cosmetics. Do it here. This function shall only be called once after a new serial number has been put into APP->serialno. Prefixes we use: FF 00 00 = For serial numbers starting with an FF FF 01 00 = Some german p15 cards return an empty serial number so the serial number from the EF(TokenInfo) is used instead. FF 02 00 = Serial number from Yubikey config. This is normally not seen because we modify this here to an OpenPGP Card s/n. FF 7F 00 = No serialno. All other serial numbers not starting with FF are used as they are. */ gpg_error_t app_munge_serialno (card_t card) { if (card->cardtype == CARDTYPE_YUBIKEY && card->serialnolen == 3 + 1 + 4 && !memcmp (card->serialno, "\xff\x02\x00", 3)) { /* An example for a serial number is * FF020001008A77C1 * ~~~~~~--~~~~~~~~ * ! ! !--------- 4 byte s/n * ! !----------- Form factor * !----------------- Our prefix * Yubico seems to use the decimalized version of their S/N * as the OpenPGP card S/N. Thus in theory we can construct the * number from this information so that we do not rely on having * the OpenPGP app enabled. */ unsigned long sn; sn = card->serialno[4] * 16777216; sn += card->serialno[5] * 65536; sn += card->serialno[6] * 256; sn += card->serialno[7]; if (sn <= 99999999ul) { char *buf = xtrymalloc (16); if (!buf) return gpg_error_from_syserror (); memcpy (buf, "\xD2\x76\x00\x01\x24\x01", 6); buf[6] = 0; /* Application version which we don't know */ buf[7] = 0; /* thus we use 0.0 and don't use this directly. */ buf[8] = 0; /* Manufacturer: Yubico (0x0006). */ buf[9] = 6; buf[13] = (sn % 10); sn /= 10; buf[13] |= (sn % 10) << 4; sn /= 10; buf[12] = (sn % 10); sn /= 10; buf[12] |= (sn % 10) << 4; sn /= 10; buf[11] = (sn % 10); sn /= 10; buf[11] |= (sn % 10) << 4; sn /= 10; buf[10] = (sn % 10); sn /= 10; buf[10] |= (sn % 10) << 4; sn /= 10; buf[14] = 0; /* Last two bytes are RFU. */ buf[15] = 0; xfree (card->serialno); card->serialno = buf; card->serialnolen = 16; } } else if (card->serialnolen && card->serialno[0] == 0xff) { /* The serial number starts with our special prefix. This requires that we put our default prefix "FF0000" in front. */ unsigned char *p = xtrymalloc (card->serialnolen + 3); if (!p) return gpg_error_from_syserror (); memcpy (p, "\xff\0", 3); memcpy (p+3, card->serialno, card->serialnolen); card->serialnolen += 3; xfree (card->serialno); card->serialno = p; } else if (!card->serialnolen) { unsigned char *p = xtrymalloc (3); if (!p) return gpg_error_from_syserror (); memcpy (p, "\xff\x7f", 3); card->serialnolen = 3; xfree (card->serialno); card->serialno = p; } return 0; } /* Retrieve the serial number of the card. The serial number is returned as a malloced string (hex encoded) in SERIAL. Caller must free SERIAL unless the function returns an error. */ char * card_get_serialno (card_t card) { char *serial; if (!card) return NULL; if (!card->serialnolen) serial = xtrystrdup ("FF7F00"); else serial = bin2hex (card->serialno, card->serialnolen, NULL); return serial; } /* Same as card_get_serialno but takes an APP object. */ char * app_get_serialno (app_t app) { if (!app || !app->card) { gpg_err_set_errno (0); return NULL; } return card_get_serialno (app->card); } /* Return an allocated string with the serial number in a format to be * show to the user. With NOFALLBACK set to true return NULL if such an * abbreviated S/N is not available, else return the full serial * number as a hex string. May return NULL on malloc problem. */ char * card_get_dispserialno (card_t card, int nofallback) { char *result, *p; unsigned long sn; if (card && card->serialno && card->serialnolen == 3+1+4 && !memcmp (card->serialno, "\xff\x02\x00", 3)) { /* This is a 4 byte S/N of a Yubikey which seems to be printed * on the token in decimal. Maybe they will print larger S/N * also in decimal but we can't be sure, thus do it only for * these 32 bit numbers. */ sn = card->serialno[4] * 16777216; sn += card->serialno[5] * 65536; sn += card->serialno[6] * 256; sn += card->serialno[7]; if ((card->cardversion >> 16) >= 5) result = xtryasprintf ("%lu %03lu %03lu", (sn/1000000ul), (sn/1000ul % 1000ul), (sn % 1000ul)); else result = xtryasprintf ("%lu", sn); } else if (card && card->cardtype == CARDTYPE_YUBIKEY) { /* Get back the printed Yubikey number from the OpenPGP AID * Example: D2760001240100000006120808620000 */ result = card_get_serialno (card); if (result && strlen (result) >= 28 && !strncmp (result+16, "0006", 4)) { sn = atoi_4 (result+20) * 10000; sn += atoi_4 (result+24); if ((card->cardversion >> 16) >= 5) p = xtryasprintf ("%lu %03lu %03lu", (sn/1000000ul), (sn/1000ul % 1000ul), (sn % 1000ul)); else p = xtryasprintf ("%lu", sn); if (p) { xfree (result); result = p; } } else if (nofallback) { xfree (result); result = NULL; } } else if (card && card->app && card->app->apptype == APPTYPE_OPENPGP) { /* Extract number from standard OpenPGP AID. */ result = card_get_serialno (card); if (result && strlen (result) > 16+12) { memcpy (result, result+16, 4); result[4] = ' '; memcpy (result+5, result+20, 8); result[13] = 0; } else if (nofallback) { xfree (result); result = NULL; } } else if (nofallback) result = NULL; /* No Abbreviated S/N. */ else result = card_get_serialno (card); return result; } /* Same as card_get_dispserialno but takes an APP object. */ char * app_get_dispserialno (app_t app, int nofallback) { if (!app || !app->card) { gpg_err_set_errno (0); return NULL; } return card_get_dispserialno (app->card, nofallback); } /* Helper to run the reselect function. */ static gpg_error_t run_reselect (ctrl_t ctrl, card_t c, app_t a, app_t a_prev) { gpg_error_t err; if (!a->fnc.reselect) { log_info ("slot %d, app %s: re-select not implemented\n", c->slot, xstrapptype (a)); return gpg_error (GPG_ERR_CARD_NOT_INITIALIZED); } /* Give the current app a chance to save some state before another * app is selected. We ignore errors here because that state saving * (e.g. putting PINs into a cache) is a convenience feature and not * required to always work. */ if (a_prev && a_prev->fnc.prep_reselect) { if (a_prev->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = a_prev->fnc.prep_reselect (a_prev, ctrl); if (err) log_error ("slot %d, app %s: preparing re-select from %s failed: %s\n", c->slot, xstrapptype (a), xstrapptype (a_prev), gpg_strerror (err)); } if (a->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = a->fnc.reselect (a, ctrl); if (err) { log_error ("slot %d, app %s: error re-selecting: %s\n", c->slot, xstrapptype (a), gpg_strerror (err)); return err; } if (DBG_APP) log_debug ("slot %d, app %s: re-selected\n", c->slot, xstrapptype (a)); return 0; } /* * Check external interference before each use of the application on * card. Returns -1 when detecting some external interference. * Returns 0 if not. * * Note: This kind of detection can't be perfect. At most, it may be * possibly useful kludge, in some limited situations. */ static int check_external_interference (app_t app, ctrl_t ctrl) { /* * Only when a user is using Yubikey with pcsc-shared configuration, * we need this detection. Otherwise, the card/token is under full * control of scdaemon, there's no problem at all. However, if the * APDU command has been used we better also check whether the AID * is still valid. */ if (app && app->card && app->card->maybe_check_aid) app->card->maybe_check_aid = 0; else if (!opt.pcsc_shared || app->card->cardtype != CARDTYPE_YUBIKEY) return 0; if (app->fnc.check_aid) { unsigned char *aid; size_t aidlen; gpg_error_t err; int slot = app_get_slot (app); err = iso7816_get_data (slot, 0, 0x004F, &aid, &aidlen); if (err) return -1; err = app->fnc.check_aid (app, ctrl, aid, aidlen); xfree (aid); if (err) return -1; } return 0; } /* Check that the card has been initialized and whether we need to * switch to another application on the same card. Switching means * that the new active app will be moved to the head of the list at * CARD->app. This function must be called with the card lock held. */ static gpg_error_t maybe_switch_app (ctrl_t ctrl, card_t card, const char *keyref) { gpg_error_t err; app_t app; app_t app_prev = NULL; apptype_t apptype; if (!card->app) return gpg_error (GPG_ERR_CARD_NOT_INITIALIZED); if (card->maybe_check_aid && card->app->fnc.reselect && check_external_interference (card->app, ctrl)) { if (DBG_APP) log_debug ("slot %d, app %s: forced re-select due to direct APDU use\n", card->slot, xstrapptype (card->app)); err = card->app->fnc.reselect (card->app, ctrl); if (err) log_error ("slot %d, app %s: forced re-select failed: %s - ignored\n", card->slot, xstrapptype (card->app), gpg_strerror (err)); err = 0; } if (!ctrl->current_apptype) { /* For whatever reasons the current apptype has not been set - * fix that and use the current app. */ if (DBG_APP) log_debug ("slot %d: no current app switching to %s\n", card->slot, strapptype (card->app->apptype)); ctrl->current_apptype = card->app->apptype; return 0; } for (app = card->app; app; app = app->next) if (app->apptype == ctrl->current_apptype) break; if (!app) { /* The current app is not supported by this card. Set the first * app of the card as current. */ if (DBG_APP) log_debug ("slot %d: current app %s not available switching to %s\n", card->slot, strapptype (ctrl->current_apptype), strapptype (card->app->apptype)); ctrl->current_apptype = card->app->apptype; return 0; } if (DBG_APP) log_debug ("slot %d: have=%s want=%s keyref=%s\n", card->slot, strapptype (card->app->apptype), strapptype (ctrl->current_apptype), keyref? keyref:"[none]"); app = NULL; if (keyref) { /* Switch based on the requested KEYREF. */ apptype = apptype_from_keyref (keyref); if (apptype) { for (app = card->app; app; app_prev = app, app = app->next) if (app->apptype == apptype) break; if (!app_prev && ctrl->current_apptype == card->app->apptype) if (check_external_interference (app, ctrl) == 0) return 0; /* Already the first app - no need to switch. */ } else if (strlen (keyref) == 40) { /* This looks like a keygrip. Iterate over all apps to find * the corresponding app. */ for (app = card->app; app; app_prev = app, app = app->next) if (app->fnc.with_keygrip && !app->need_reset && !app->fnc.with_keygrip (app, ctrl, KEYGRIP_ACTION_LOOKUP, keyref, 0)) break; if (!app_prev && ctrl->current_apptype == card->app->apptype) if (check_external_interference (app, ctrl) == 0) return 0; /* Already the first app - no need to switch. */ } } if (!app) { /* Switch based on the current application of this connection or * if a keyref based switch didn't worked. */ if (ctrl->current_apptype == card->app->apptype) return 0; /* No need to switch. */ app_prev = card->app; for (app = app_prev->next; app; app_prev = app, app = app->next) if (app->apptype == ctrl->current_apptype) break; } if (!app) return gpg_error (GPG_ERR_WRONG_CARD); err = run_reselect (ctrl, card, app, app_prev); if (err) return err; /* Swap APP with the head of the app list if needed. Note that APP * is not the head of the list. */ if (app_prev) { app_prev->next = app->next; app->next = card->app; card->app = app; } if (opt.verbose) log_info ("slot %d, app %s: %s\n", card->slot, xstrapptype (app), app_prev? "switched":"re-selected"); ctrl->current_apptype = app->apptype; return 0; } /* Helper for app_write_learn_status. */ static gpg_error_t write_learn_status_core (card_t card, app_t app, ctrl_t ctrl, unsigned int flags) { gpg_error_t err; /* We do not send CARD and APPTYPE if only keypairinfo is requested. */ if (!(flags & APP_LEARN_FLAG_KEYPAIRINFO)) { if (card && card->cardtype) send_status_direct (ctrl, "CARDTYPE", strcardtype (card->cardtype)); if (card && card->cardversion) send_status_printf (ctrl, "CARDVERSION", "%X", card->cardversion); if (app->apptype) send_status_direct (ctrl, "APPTYPE", strapptype (app->apptype)); if (app->appversion) send_status_printf (ctrl, "APPVERSION", "%X", app->appversion); } if (app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else { err = app->fnc.learn_status (app, ctrl, flags); if (err && (flags & APP_LEARN_FLAG_REREAD)) app->need_reset = 1; } return err; } /* Write out the application specific status lines for the LEARN command. */ gpg_error_t app_write_learn_status (card_t card, ctrl_t ctrl, unsigned int flags) { gpg_error_t err, err2, tmperr; app_t app, last_app; int any_reselect = 0; /* Always make sure that the current app for this connection has * been selected and is at the top of the list. */ if ((err = maybe_switch_app (ctrl, card, NULL))) ; else if (!card->app->fnc.learn_status) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { err = write_learn_status_core (card, card->app, ctrl, flags); if (!err && card->app->fnc.reselect && (flags & APP_LEARN_FLAG_MULTI)) { /* The current app has the reselect feature so that we can * loop over all other apps which are capable of a reselect * and finally reselect the first app again. Note that we * did the learn for the currently selected card above. */ app = last_app = card->app; for (app = app->next; app && !err; app = app->next) if (app->fnc.reselect) { if (last_app && last_app->fnc.prep_reselect) { tmperr = last_app->fnc.prep_reselect (last_app, ctrl); if (tmperr) log_info ("slot %d, app %s:" " preparing re-select from %s failed: %s\n", card->slot, xstrapptype (app), xstrapptype (last_app), gpg_strerror (tmperr)); } any_reselect = 1; err = app->fnc.reselect (app, ctrl); if (!err) { last_app = app; err = write_learn_status_core (NULL, app, ctrl, flags); } } app = card->app; if (any_reselect) { if (last_app && last_app->fnc.prep_reselect) { tmperr = last_app->fnc.prep_reselect (last_app, ctrl); if (tmperr) log_info ("slot %d, app %s:" " preparing re-select from %s failed: %s\n", card->slot, xstrapptype (app), xstrapptype (last_app), gpg_strerror (tmperr)); } err2 = app->fnc.reselect (app, ctrl); if (err2) { log_error ("error re-selecting '%s': %s\n", strapptype(app->apptype), gpg_strerror (err2)); if (!err) err = err2; } } } } return err; } /* Read the certificate with id CERTID (as returned by learn_status in the CERTINFO status lines) and return it in the freshly allocated buffer put into CERT and the length of the certificate put into CERTLEN. */ gpg_error_t app_readcert (card_t card, ctrl_t ctrl, const char *certid, unsigned char **cert, size_t *certlen) { gpg_error_t err; if ((err = maybe_switch_app (ctrl, card, certid))) ; else if (!card->app->fnc.readcert) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling readcert(%s)\n", card->slot, xstrapptype (card->app), certid); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.readcert (card->app, certid, cert, certlen); } return err; } /* Read the key with ID KEYID. On success a canonical encoded * S-expression with the public key will get stored at PK and its * length (for assertions) at PKLEN; the caller must release that * buffer. On error NULL will be stored at PK and PKLEN and an error * code returned. If the key is not required NULL may be passed for * PK; this makes sense if the APP_READKEY_FLAG_INFO has also been set. * * This function might not be supported by all applications. */ gpg_error_t app_readkey (card_t card, ctrl_t ctrl, const char *keyid, unsigned int flags, unsigned char **pk, size_t *pklen) { gpg_error_t err; if (pk) *pk = NULL; if (pklen) *pklen = 0; if (!keyid) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, keyid))) ; else if (!card->app->fnc.readkey) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling readkey(%s)\n", card->slot, xstrapptype (card->app), keyid); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.readkey (card->app, ctrl, keyid, flags, pk, pklen); } return err; } /* Perform a GETATTR operation. */ gpg_error_t app_getattr (card_t card, ctrl_t ctrl, const char *name) { gpg_error_t err; if (!name || !*name) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, NULL))) ; else if (name && !strcmp (name, "CARDTYPE")) { send_status_direct (ctrl, "CARDTYPE", strcardtype (card->cardtype)); } else if (name && !strcmp (name, "APPTYPE")) { send_status_direct (ctrl, "APPTYPE", strapptype (card->app->apptype)); } else if (name && !strcmp (name, "SERIALNO")) { char *serial; serial = app_get_serialno (card->app); if (!serial) err = gpg_error (GPG_ERR_INV_VALUE); else { send_status_direct (ctrl, "SERIALNO", serial); xfree (serial); } } else if (!card->app->fnc.getattr) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling getattr(%s)\n", card->slot, xstrapptype (card->app), name); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.getattr (card->app, ctrl, name); } return err; } /* Perform a SETATTR operation. */ gpg_error_t app_setattr (card_t card, ctrl_t ctrl, const char *name, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg, const unsigned char *value, size_t valuelen) { gpg_error_t err; if (!name || !*name || !value) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, NULL))) ; else if (!card->app->fnc.setattr) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling setattr(%s)\n", card->slot, xstrapptype (card->app), name); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.setattr (card->app, ctrl, name, pincb, pincb_arg, value, valuelen); } return err; } /* Create the signature and return the allocated result in OUTDATA. If a PIN is required the PINCB will be used to ask for the PIN; it should return the PIN in an allocated buffer and put it into PIN. */ gpg_error_t app_sign (card_t card, ctrl_t ctrl, const char *keyidstr, int hashalgo, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg, const void *indata, size_t indatalen, unsigned char **outdata, size_t *outdatalen ) { gpg_error_t err; if (!indata || !indatalen || !outdata || !outdatalen || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, keyidstr))) ; else if (!card->app->fnc.sign) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling sign(%s)\n", card->slot, xstrapptype (card->app), keyidstr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.sign (card->app, ctrl, keyidstr, hashalgo, pincb, pincb_arg, indata, indatalen, outdata, outdatalen); } if (opt.verbose) log_info ("operation sign result: %s\n", gpg_strerror (err)); return err; } /* Create the signature using the INTERNAL AUTHENTICATE command and return the allocated result in OUTDATA. If a PIN is required the PINCB will be used to ask for the PIN; it should return the PIN in an allocated buffer and put it into PIN. */ gpg_error_t app_auth (card_t card, ctrl_t ctrl, const char *keyidstr, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg, const void *indata, size_t indatalen, unsigned char **outdata, size_t *outdatalen ) { gpg_error_t err; if (!outdata || !outdatalen || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, keyidstr))) ; else if (!card->app->fnc.auth) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (card->app->apptype != APPTYPE_OPENPGP && (!indata || !indatalen)) return gpg_error (GPG_ERR_INV_VALUE); if (DBG_APP) log_debug ("slot %d app %s: calling auth(%s)\n", card->slot, xstrapptype (card->app), keyidstr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.auth (card->app, ctrl, keyidstr, pincb, pincb_arg, indata, indatalen, outdata, outdatalen); } if (opt.verbose) log_info ("operation auth result: %s\n", gpg_strerror (err)); return err; } /* Decrypt the data in INDATA and return the allocated result in OUTDATA. If a PIN is required the PINCB will be used to ask for the PIN; it should return the PIN in an allocated buffer and put it into PIN. */ gpg_error_t app_decipher (card_t card, ctrl_t ctrl, const char *keyidstr, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg, const void *indata, size_t indatalen, unsigned char **outdata, size_t *outdatalen, unsigned int *r_info) { gpg_error_t err; *r_info = 0; if (!indata || !indatalen || !outdata || !outdatalen || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, keyidstr))) ; else if (!card->app->fnc.decipher) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling decipher(%s)\n", card->slot, xstrapptype (card->app), keyidstr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.decipher (card->app, ctrl, keyidstr, pincb, pincb_arg, indata, indatalen, outdata, outdatalen, r_info); } if (opt.verbose) log_info ("operation decipher result: %s\n", gpg_strerror (err)); return err; } /* Perform the WRITECERT operation. */ gpg_error_t app_writecert (card_t card, ctrl_t ctrl, const char *certidstr, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg, const unsigned char *data, size_t datalen) { gpg_error_t err; if (!certidstr || !*certidstr || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, certidstr))) ; else if (!card->app->fnc.writecert) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling writecert(%s)\n", card->slot, xstrapptype (card->app), certidstr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.writecert (card->app, ctrl, certidstr, pincb, pincb_arg, data, datalen); } if (opt.verbose) log_info ("operation writecert result: %s\n", gpg_strerror (err)); return err; } /* Perform the WRITEKEY operation. */ gpg_error_t app_writekey (card_t card, ctrl_t ctrl, const char *keyidstr, unsigned int flags, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg, const unsigned char *keydata, size_t keydatalen) { gpg_error_t err; if (!keyidstr || !*keyidstr || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, keyidstr))) ; else if (!card->app->fnc.writekey) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling writekey(%s)\n", card->slot, xstrapptype (card->app), keyidstr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.writekey (card->app, ctrl, keyidstr, flags, pincb, pincb_arg, keydata, keydatalen); } if (opt.verbose) log_info ("operation writekey result: %s\n", gpg_strerror (err)); return err; } /* Perform a GENKEY operation. */ gpg_error_t app_genkey (card_t card, ctrl_t ctrl, const char *keynostr, const char *keytype, unsigned int flags, time_t createtime, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg) { gpg_error_t err; if (!keynostr || !*keynostr || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, keynostr))) ; else if (!card->app->fnc.genkey) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling genkey(%s)\n", card->slot, xstrapptype (card->app), keynostr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.genkey (card->app, ctrl, keynostr, keytype, flags, createtime, pincb, pincb_arg); } if (opt.verbose) log_info ("operation genkey result: %s\n", gpg_strerror (err)); return err; } /* Perform a GET CHALLENGE operation. This function is special as it directly accesses the card without any application specific wrapper. */ gpg_error_t app_get_challenge (card_t card, ctrl_t ctrl, size_t nbytes, unsigned char *buffer) { (void)ctrl; if (!nbytes || !buffer) return gpg_error (GPG_ERR_INV_VALUE); return iso7816_get_challenge (card->slot, nbytes, buffer); } /* Perform a CHANGE REFERENCE DATA or RESET RETRY COUNTER operation. */ gpg_error_t app_change_pin (card_t card, ctrl_t ctrl, const char *chvnostr, unsigned int flags, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg) { gpg_error_t err; if (!chvnostr || !*chvnostr || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, NULL))) ; else if (!card->app->fnc.change_pin) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling change_pin(%s)\n", card->slot, xstrapptype (card->app), chvnostr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.change_pin (card->app, ctrl, chvnostr, flags, pincb, pincb_arg); } if (opt.verbose) log_info ("operation change_pin result: %s\n", gpg_strerror (err)); return err; } /* Perform a VERIFY operation without doing anything else. This may be used to initialize a the PIN cache for long lasting other operations. Its use is highly application dependent. */ gpg_error_t app_check_pin (card_t card, ctrl_t ctrl, const char *keyidstr, gpg_error_t (*pincb)(void*, const char *, char **), void *pincb_arg) { gpg_error_t err; if (!keyidstr || !*keyidstr || !pincb) return gpg_error (GPG_ERR_INV_VALUE); if ((err = maybe_switch_app (ctrl, card, NULL))) ; else if (!card->app->fnc.check_pin) err = gpg_error (GPG_ERR_UNSUPPORTED_OPERATION); else { if (DBG_APP) log_debug ("slot %d app %s: calling check_pin(%s)\n", card->slot, xstrapptype (card->app), keyidstr); if (card->app->need_reset) err = gpg_error (GPG_ERR_CARD_RESET); else err = card->app->fnc.check_pin (card->app, ctrl, keyidstr, pincb, pincb_arg); } if (opt.verbose) log_info ("operation check_pin result: %s\n", gpg_strerror (err)); return err; } #ifndef HAVE_W32_SYSTEM static void setup_env (void *arg) { char *v = arg; putenv (v); } #endif static void report_change (int slot, int old_status, int cur_status) { char *homestr, *envstr; char *fname; char templ[50]; estream_t fp; snprintf (templ, sizeof templ, "reader_%d.status", slot); fname = make_filename (gnupg_homedir (), templ, NULL ); fp = es_fopen (fname, "w"); if (fp) { es_fprintf (fp, "%s\n", (cur_status & 1)? "USABLE": (cur_status & 4)? "ACTIVE": (cur_status & 2)? "PRESENT": "NOCARD"); es_fclose (fp); } xfree (fname); homestr = make_filename (gnupg_homedir (), NULL); if (gpgrt_asprintf (&envstr, "GNUPGHOME=%s", homestr) < 0) log_error ("out of core while building environment\n"); else { gpg_error_t err; const char *args[9]; char numbuf1[30], numbuf2[30], numbuf3[30]; gnupg_spawn_actions_t act = NULL; sprintf (numbuf1, "%d", slot); sprintf (numbuf2, "0x%04X", old_status); sprintf (numbuf3, "0x%04X", cur_status); args[0] = "--reader-port"; args[1] = numbuf1; args[2] = "--old-code"; args[3] = numbuf2; args[4] = "--new-code"; args[5] = numbuf3; args[6] = "--status"; args[7] = ((cur_status & 1)? "USABLE": (cur_status & 4)? "ACTIVE": (cur_status & 2)? "PRESENT": "NOCARD"); args[8] = NULL; fname = make_filename (gnupg_homedir (), "scd-event", NULL); err = gnupg_spawn_actions_new (&act); if (!err) { #ifndef HAVE_W32_SYSTEM gnupg_spawn_actions_set_atfork (act, setup_env, envstr); #endif err = gnupg_process_spawn (fname, args, GNUPG_PROCESS_DETACHED, act, NULL); gnupg_spawn_actions_release (act); } if (err && gpg_err_code (err) != GPG_ERR_ENOENT) log_error ("failed to run event handler '%s': %s\n", fname, gpg_strerror (err)); xfree (fname); xfree (envstr); } xfree (homestr); } int scd_update_reader_status_file (void) { card_t card, card_next; int periodical_check_needed = 0; int reported = 0; card_list_w_lock (); for (card = card_top; card; card = card_next) { int sw; unsigned int status; lock_card (card, NULL); card_next = card->next; if (card->reset_requested) { /* Here is the post-processing of RESET request. */ status = 0; card->reset_requested = 0; } else { sw = apdu_get_status (card->slot, 0, &status); if (sw == SW_HOST_NO_READER) { /* Most likely the _reader_ has been unplugged. */ status = 0; } else if (sw) { /* Get status failed. Ignore that. */ if (card->periodical_check_needed) periodical_check_needed = 1; unlock_card (card); continue; } } if (card->card_status != status) { report_change (card->slot, card->card_status, status); send_client_notifications (card, status == 0); reported++; if (status == 0) { if (DBG_APP) log_debug ("Removal of a card: %d\n", card->slot); pincache_put (NULL, card->slot, NULL, NULL, NULL, 0); apdu_close_reader (card->slot); deallocate_card (card); } else { card->card_status = status; if (card->periodical_check_needed) periodical_check_needed = 1; unlock_card (card); } } else { if (card->periodical_check_needed) periodical_check_needed = 1; unlock_card (card); } } if (reported) card_list_signal (); card_list_w_unlock (); return periodical_check_needed; } /* This function must be called once to initialize this module. This has to be done before a second thread is spawned. We can't do the static initialization because Pth emulation code might not be able to do a static init; in particular, it is not possible for W32. */ gpg_error_t initialize_module_command (void) { gpg_error_t err; card_list_lock.num_readers_active = 0; card_list_lock.num_writers_waiting = 0; card_list_lock.writer_active = 0; if (npth_mutex_init (&card_list_lock.lock, NULL)) { err = gpg_error_from_syserror (); log_error ("app: error initializing mutex: %s\n", gpg_strerror (err)); return err; } err = npth_cond_init (&card_list_lock.cond, NULL); if (err) { err = gpg_error_from_syserror (); log_error ("npth_cond_init failed: %s\n", gpg_strerror (err)); return err; } err = npth_cond_init (&card_list_lock.notify_cond, NULL); if (err) { err = gpg_error_from_syserror (); log_error ("npth_cond_init failed: %s\n", gpg_strerror (err)); return err; } return apdu_init (); } /* Sort helper for app_send_card_list. */ static int compare_card_list_items (const void *arg_a, const void *arg_b) { const card_t a = *(const card_t *)arg_a; const card_t b = *(const card_t *)arg_b; return a->slot - b->slot; } /* Helper for send_card_and_app_list and app_switch_active_app. */ static gpg_error_t send_serialno_and_app_status (card_t card, int with_apps, ctrl_t ctrl) { gpg_error_t err; app_t a; char *serial; char *p; membuf_t mb; int any = 0; serial = card_get_serialno (card); if (!serial) return 0; /* Oops. */ if (with_apps) { /* Note that in case the additional applications have not yet been * added to the card context (which is commonly done by means of * "SERIALNO --all", we do that here. */ err = select_all_additional_applications_internal (ctrl, card); if (err) { xfree (serial); return err; } init_membuf (&mb, 256); put_membuf_str (&mb, serial); for (a = card->app; a; a = a->next) { if (!a->fnc.with_keygrip || a->need_reset) continue; any = 1; put_membuf (&mb, " ", 1); put_membuf_str (&mb, xstrapptype (a)); } if (!any && card->app) { /* No card app supports the with_keygrip function. Use the * main app as fallback. */ put_membuf (&mb, " ", 1); put_membuf_str (&mb, xstrapptype (card->app)); } put_membuf (&mb, "", 1); p = get_membuf (&mb, NULL); if (!p) { err = gpg_error_from_syserror (); xfree (serial); return err; } send_status_direct (ctrl, "SERIALNO", p); xfree (p); } else send_status_direct (ctrl, "SERIALNO", serial); xfree (serial); return 0; } /* Common code for app_send_card_list and app_send_active_apps. */ static gpg_error_t send_card_and_app_list (ctrl_t ctrl, card_t wantcard, int with_apps) { gpg_error_t err; card_t c; card_t *cardlist = NULL; int n, ncardlist; card_list_r_lock (); for (n=0, c = card_top; c; c = c->next) n++; if (!n) { err = gpg_error (GPG_ERR_CARD_NOT_PRESENT); goto leave; } cardlist = xtrycalloc (n, sizeof *cardlist); if (!cardlist) { err = gpg_error_from_syserror (); goto leave; } for (ncardlist=0, c = card_top; c; c = c->next) cardlist[ncardlist++] = c; qsort (cardlist, ncardlist, sizeof *cardlist, compare_card_list_items); for (n=0; n < ncardlist; n++) { if (wantcard && wantcard != cardlist[n]) continue; err = send_serialno_and_app_status (cardlist[n], with_apps, ctrl); if (err) goto leave; } err = 0; leave: card_list_r_unlock (); xfree (cardlist); return err; } /* Send status lines with the serialno of all inserted cards. */ gpg_error_t app_send_card_list (ctrl_t ctrl) { return send_card_and_app_list (ctrl, NULL, 0); } /* Send status lines with the serialno and appname of the current card * or of all cards if CARD is NULL. */ gpg_error_t app_send_active_apps (card_t card, ctrl_t ctrl) { return send_card_and_app_list (ctrl, card, 1); } /* Switch to APPNAME and print a respective status line with that app * listed first. If APPNAME is NULL or the empty string no switching * is done but the status line is printed anyway. */ gpg_error_t app_switch_active_app (card_t card, ctrl_t ctrl, const char *appname) { gpg_error_t err; apptype_t apptype; /* Note that in case the additional applications have not yet been * added to the card context (which is commonly done by means of * "SERIALNO --all", we do that here. */ err = select_all_additional_applications_internal (ctrl, card); if (err) goto leave; if (appname && *appname) { apptype = apptype_from_name (appname); if (!apptype) { err = gpg_error (GPG_ERR_NOT_FOUND); goto leave; } ctrl->current_apptype = apptype; err = maybe_switch_app (ctrl, card, NULL); if (err) goto leave; } /* Print the status line. */ err = send_serialno_and_app_status (card, 1, ctrl); leave: return err; } /* Execute an action for each app. ACTION can be one of: * * - KEYGRIP_ACTION_SEND_DATA * * If KEYGRIP_STR matches a public key of any active application * send information as LF terminated data lines about the public * key. The format of these lines is * T * If a match was found a pointer to the matching application is * returned. With the KEYGRIP_STR given as NULL, lines for all * keys (with CAPABILITY) will be send and the return value is * GPG_ERR_TRUE. * * - KEYGRIP_ACTION_WRITE_STATUS * * Same as KEYGRIP_ACTION_SEND_DATA but uses status lines instead * of data lines. * * - KEYGRIP_ACTION_LOOKUP * * Returns a pointer to the application matching KEYGRIP_STR but * does not emit any status or data lines. If no key with that * keygrip is available or KEYGRIP_STR is NULL, GPG_ERR_NOT_FOUND * is returned. */ card_t app_do_with_keygrip (ctrl_t ctrl, int action, const char *keygrip_str, int capability) { card_t card; card_list_r_lock (); card = do_with_keygrip (ctrl, action, keygrip_str, capability); card_list_r_unlock (); return card; }