diff --git a/sm/certchain.c b/sm/certchain.c index 582ebe587..7b5d17d40 100644 --- a/sm/certchain.c +++ b/sm/certchain.c @@ -1,2385 +1,2391 @@ /* certchain.c - certificate chain validation * Copyright (C) 2001, 2002, 2003, 2004, 2005, * 2006, 2007, 2008, 2011 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 #include #include #include "gpgsm.h" #include #include #include "keydb.h" #include "../kbx/keybox.h" /* for KEYBOX_FLAG_* */ #include "../common/i18n.h" #include "../common/tlv.h" /* The OID for the authorityInfoAccess's caIssuers. */ static const char oidstr_caIssuers[] = "1.3.6.1.5.5.7.48.2"; /* Object to keep track of certain root certificates. */ struct marktrusted_info_s { struct marktrusted_info_s *next; unsigned char fpr[20]; }; static struct marktrusted_info_s *marktrusted_info; /* While running the validation function we want to keep track of the certificates in the chain. This type is used for that. */ struct chain_item_s { struct chain_item_s *next; ksba_cert_t cert; /* The certificate. */ int is_root; /* The certificate is the root certificate. */ }; typedef struct chain_item_s *chain_item_t; static int is_root_cert (ksba_cert_t cert, const char *issuerdn, const char *subjectdn); static int get_regtp_ca_info (ctrl_t ctrl, ksba_cert_t cert, int *chainlen); /* This function returns true if we already asked during this session whether the root certificate CERT shall be marked as trusted. */ static int already_asked_marktrusted (ksba_cert_t cert) { unsigned char fpr[20]; struct marktrusted_info_s *r; gpgsm_get_fingerprint (cert, GCRY_MD_SHA1, fpr, NULL); /* No context switches in the loop! */ for (r=marktrusted_info; r; r= r->next) if (!memcmp (r->fpr, fpr, 20)) return 1; return 0; } /* Flag certificate CERT as already asked whether it shall be marked as trusted. */ static void set_already_asked_marktrusted (ksba_cert_t cert) { unsigned char fpr[20]; struct marktrusted_info_s *r; gpgsm_get_fingerprint (cert, GCRY_MD_SHA1, fpr, NULL); for (r=marktrusted_info; r; r= r->next) if (!memcmp (r->fpr, fpr, 20)) return; /* Already marked. */ r = xtrycalloc (1, sizeof *r); if (!r) return; memcpy (r->fpr, fpr, 20); r->next = marktrusted_info; marktrusted_info = r; } /* If LISTMODE is true, print FORMAT using LISTMODE to FP. If LISTMODE is false, use the string to print an log_info or, if IS_ERROR is true, and log_error. */ static void do_list (int is_error, int listmode, estream_t fp, const char *format, ...) { va_list arg_ptr; va_start (arg_ptr, format) ; if (listmode) { if (fp) { es_fputs (" [", fp); es_vfprintf (fp, format, arg_ptr); es_fputs ("]\n", fp); } } else { log_logv (is_error? GPGRT_LOG_ERROR: GPGRT_LOG_INFO, format, arg_ptr); log_printf ("\n"); } va_end (arg_ptr); } /* Return 0 if A and B are equal. */ static int compare_certs (ksba_cert_t a, ksba_cert_t b) { const unsigned char *img_a, *img_b; size_t len_a, len_b; img_a = ksba_cert_get_image (a, &len_a); if (!img_a) return 1; img_b = ksba_cert_get_image (b, &len_b); if (!img_b) return 1; return !(len_a == len_b && !memcmp (img_a, img_b, len_a)); } /* Return true if CERT has the validityModel extensions and defines the use of the chain model. */ static int has_validation_model_chain (ksba_cert_t cert, int listmode, estream_t listfp) { gpg_error_t err; int idx, yes; const char *oid; size_t off, derlen, objlen, hdrlen; const unsigned char *der; int class, tag, constructed, ndef; char *oidbuf; for (idx=0; !(err=ksba_cert_get_extension (cert, idx, &oid, NULL, &off, &derlen));idx++) if (!strcmp (oid, "1.3.6.1.4.1.8301.3.5") ) break; if (err) return 0; /* Not found. */ der = ksba_cert_get_image (cert, NULL); if (!der) { err = gpg_error (GPG_ERR_INV_OBJ); /* Oops */ goto leave; } der += off; err = parse_ber_header (&der, &derlen, &class, &tag, &constructed, &ndef, &objlen, &hdrlen); if (!err && (objlen > derlen || tag != TAG_SEQUENCE)) err = gpg_error (GPG_ERR_INV_OBJ); if (err) goto leave; derlen = objlen; err = parse_ber_header (&der, &derlen, &class, &tag, &constructed, &ndef, &objlen, &hdrlen); if (!err && (objlen > derlen || tag != TAG_OBJECT_ID)) err = gpg_error (GPG_ERR_INV_OBJ); if (err) goto leave; oidbuf = ksba_oid_to_str (der, objlen); if (!oidbuf) { err = gpg_error_from_syserror (); goto leave; } if (opt.verbose) do_list (0, listmode, listfp, _("validation model requested by certificate: %s"), !strcmp (oidbuf, "1.3.6.1.4.1.8301.3.5.1")? _("chain") : !strcmp (oidbuf, "1.3.6.1.4.1.8301.3.5.2")? _("shell") : /* */ oidbuf); yes = !strcmp (oidbuf, "1.3.6.1.4.1.8301.3.5.1"); ksba_free (oidbuf); return yes; leave: log_error ("error parsing validityModel: %s\n", gpg_strerror (err)); return 0; } static int unknown_criticals (ksba_cert_t cert, int listmode, estream_t fp) { static const char *known[] = { "2.5.29.15", /* keyUsage */ "2.5.29.17", /* subjectAltName Japanese DoCoMo certs mark them as critical. PKIX only requires them as critical if subjectName is empty. I don't know whether our code gracefully handles such empry subjectNames but that is another story. */ "2.5.29.19", /* basic Constraints */ "2.5.29.32", /* certificatePolicies */ "2.5.29.37", /* extendedKeyUsage - handled by certlist.c */ "1.3.6.1.4.1.8301.3.5", /* validityModel - handled here. */ NULL }; int rc = 0, i, idx, crit; const char *oid; gpg_error_t err; int unsupported; strlist_t sl; for (idx=0; !(err=ksba_cert_get_extension (cert, idx, &oid, &crit, NULL, NULL));idx++) { if (!crit) continue; for (i=0; known[i] && strcmp (known[i],oid); i++) ; unsupported = !known[i]; /* If this critical extension is not supported. Check the list of to be ignored extensions to see whether we claim that it is supported. */ if (unsupported && opt.ignored_cert_extensions) { for (sl=opt.ignored_cert_extensions; sl && strcmp (sl->d, oid); sl = sl->next) ; if (sl) unsupported = 0; } if (unsupported) { do_list (1, listmode, fp, _("critical certificate extension %s is not supported"), oid); rc = gpg_error (GPG_ERR_UNSUPPORTED_CERT); } } /* We ignore the error codes EOF as well as no-value. The later will occur for certificates with no extensions at all. */ if (err && gpg_err_code (err) != GPG_ERR_EOF && gpg_err_code (err) != GPG_ERR_NO_VALUE) rc = err; return rc; } /* Check whether CERT is an allowed certificate. This requires that CERT matches all requirements for such a CA, i.e. the BasicConstraints extension. The function returns 0 on success and the allowed length of the chain at CHAINLEN. */ static int allowed_ca (ctrl_t ctrl, ksba_cert_t cert, int *chainlen, int listmode, estream_t fp) { gpg_error_t err; int flag; err = ksba_cert_is_ca (cert, &flag, chainlen); if (err) return err; if (!flag) { if (get_regtp_ca_info (ctrl, cert, chainlen)) { /* Note that dirmngr takes a different way to cope with such certs. */ return 0; /* RegTP issued certificate. */ } do_list (1, listmode, fp,_("issuer certificate is not marked as a CA")); return gpg_error (GPG_ERR_BAD_CA_CERT); } return 0; } static int check_cert_policy (ksba_cert_t cert, int listmode, estream_t fplist) { gpg_error_t err; char *policies; estream_t fp; int any_critical; err = ksba_cert_get_cert_policies (cert, &policies); if (gpg_err_code (err) == GPG_ERR_NO_DATA) return 0; /* No policy given. */ if (err) return err; /* STRING is a line delimited list of certificate policies as stored in the certificate. The line itself is colon delimited where the first field is the OID of the policy and the second field either N or C for normal or critical extension */ if (opt.verbose > 1 && !listmode) log_info ("certificate's policy list: %s\n", policies); /* The check is very minimal but won't give false positives */ any_critical = !!strstr (policies, ":C"); if (!opt.policy_file) { xfree (policies); if (any_critical) { do_list (1, listmode, fplist, _("critical marked policy without configured policies")); return gpg_error (GPG_ERR_NO_POLICY_MATCH); } return 0; } fp = es_fopen (opt.policy_file, "r"); if (!fp) { if (opt.verbose || errno != ENOENT) log_info (_("failed to open '%s': %s\n"), opt.policy_file, strerror (errno)); xfree (policies); /* With no critical policies this is only a warning */ if (!any_critical) { if (opt.verbose) do_list (0, listmode, fplist, _("Note: non-critical certificate policy not allowed")); return 0; } do_list (1, listmode, fplist, _("certificate policy not allowed")); return gpg_error (GPG_ERR_NO_POLICY_MATCH); } for (;;) { int c; char *p, line[256]; char *haystack, *allowed; /* read line */ do { if (!es_fgets (line, DIM(line)-1, fp) ) { gpg_error_t tmperr = gpg_error_from_syserror (); xfree (policies); if (es_feof (fp)) { es_fclose (fp); /* With no critical policies this is only a warning */ if (!any_critical) { if (opt.verbose) do_list (0, listmode, fplist, _("Note: non-critical certificate policy not allowed")); return 0; } do_list (1, listmode, fplist, _("certificate policy not allowed")); return gpg_error (GPG_ERR_NO_POLICY_MATCH); } es_fclose (fp); return tmperr; } if (!*line || line[strlen(line)-1] != '\n') { /* eat until end of line */ while ((c = es_getc (fp)) != EOF && c != '\n') ; es_fclose (fp); xfree (policies); return gpg_error (*line? GPG_ERR_LINE_TOO_LONG : GPG_ERR_INCOMPLETE_LINE); } /* Allow for empty lines and spaces */ for (p=line; spacep (p); p++) ; } while (!*p || *p == '\n' || *p == '#'); /* Parse line. Note that the line has always a LF and spacep does not consider a LF a space. Thus strpbrk will always succeed. */ for (allowed=line; spacep (allowed); allowed++) ; p = strpbrk (allowed, " :\n"); if (!*p || p == allowed) { es_fclose (fp); xfree (policies); return gpg_error (GPG_ERR_CONFIGURATION); } *p = 0; /* strip the rest of the line */ /* See whether we find ALLOWED (which is an OID) in POLICIES */ for (haystack=policies; (p=strstr (haystack, allowed)); haystack = p+1) { if ( !(p == policies || p[-1] == '\n') ) continue; /* Does not match the begin of a line. */ if (p[strlen (allowed)] != ':') continue; /* The length does not match. */ /* Yep - it does match so return okay. */ es_fclose (fp); xfree (policies); return 0; } } } /* Helper function for find_up. This resets the key handle and search for an issuer ISSUER with a subjectKeyIdentifier of KEYID. Returns 0 on success or -1 when not found. */ static int find_up_search_by_keyid (ctrl_t ctrl, KEYDB_HANDLE kh, const char *issuer, ksba_sexp_t keyid) { int rc; ksba_cert_t cert = NULL; ksba_sexp_t subj = NULL; ksba_isotime_t not_before, not_after, last_not_before, ne_last_not_before; ksba_cert_t found_cert = NULL; ksba_cert_t ne_found_cert = NULL; keydb_search_reset (kh); while (!(rc = keydb_search_subject (ctrl, kh, issuer))) { ksba_cert_release (cert); cert = NULL; rc = keydb_get_cert (kh, &cert); if (rc) { log_error ("keydb_get_cert() failed: rc=%d\n", rc); - rc = -1; + rc = gpg_error (GPG_ERR_NOT_FOUND); goto leave; } xfree (subj); if (!ksba_cert_get_subj_key_id (cert, NULL, &subj)) { if (!cmp_simple_canon_sexp (keyid, subj)) { /* Found matching cert. */ rc = ksba_cert_get_validity (cert, 0, not_before); if (!rc) rc = ksba_cert_get_validity (cert, 1, not_after); if (rc) { log_error ("keydb_get_validity() failed: rc=%d\n", rc); - rc = -1; + rc = gpg_error (GPG_ERR_NOT_FOUND); goto leave; } if (!found_cert || strcmp (last_not_before, not_before) < 0) { /* This certificate is the first one found or newer * than the previous one. This copes with * re-issuing CA certificates while keeping the same * key information. */ gnupg_copy_time (last_not_before, not_before); ksba_cert_release (found_cert); ksba_cert_ref ((found_cert = cert)); keydb_push_found_state (kh); } if (*not_after && strcmp (ctrl->current_time, not_after) > 0 ) ; /* CERT has expired - don't consider it. */ else if (!ne_found_cert || strcmp (ne_last_not_before, not_before) < 0) { /* This certificate is the first non-expired one * found or newer than the previous non-expired one. */ gnupg_copy_time (ne_last_not_before, not_before); ksba_cert_release (ne_found_cert); ksba_cert_ref ((ne_found_cert = cert)); } } } } if (!found_cert) goto leave; /* Take the last saved one. Note that push/pop_found_state are * misnomers because there is no stack of states. Renaming them to * save/restore_found_state would be better. */ keydb_pop_found_state (kh); rc = 0; /* Ignore EOF or other error after the first cert. */ /* We need to consider some corner cases. It is possible that we * have a long term certificate (e.g. valid from 2008 to 2033) as * well as a re-issued (i.e. using the same key material) short term * certificate (say from 2016 to 2019). Using the short term * certificate is the proper solution. But we need to take care if * there is no re-issued new short term certificate (e.g. from 2020 * to 2023) available. In that case it is better to use the long * term certificate which is still valid. The code may run into * minor problems in the case of the chain validation mode. Given * that this corner case is due to non-diligent PKI management we * ignore this problem. */ /* The most common case is that the found certificate is not expired * and thus identical to the one found from the list of non-expired * certs. We can stop here. */ if (found_cert == ne_found_cert) goto leave; /* If we do not have a non expired certificate the actual cert is * expired and we can also stop here. */ if (!ne_found_cert) goto leave; /* Now we need to see whether the found certificate is expired and * only in this case we return the certificate found in the list of * non-expired certs. */ rc = ksba_cert_get_validity (found_cert, 1, not_after); if (rc) { log_error ("keydb_get_validity() failed: rc=%d\n", rc); - rc = -1; + rc = gpg_error (GPG_ERR_NOT_FOUND); goto leave; } if (*not_after && strcmp (ctrl->current_time, not_after) > 0 ) { /* CERT has expired. Use the NE_FOUND_CERT. Because we have no * found state for this we need to search for it again. */ unsigned char fpr[20]; gpgsm_get_fingerprint (ne_found_cert, GCRY_MD_SHA1, fpr, NULL); keydb_search_reset (kh); rc = keydb_search_fpr (ctrl, kh, fpr); if (rc) { log_error ("keydb_search_fpr() failed: rc=%d\n", rc); - rc = -1; + rc = gpg_error (GPG_ERR_NOT_FOUND); goto leave; } /* Ready. The NE_FOUND_CERT is availabale via keydb_get_cert. */ } leave: ksba_cert_release (found_cert); ksba_cert_release (ne_found_cert); ksba_cert_release (cert); xfree (subj); - return rc? -1:0; + return rc? gpg_error (GPG_ERR_NOT_FOUND) : 0; } struct find_up_store_certs_s { ctrl_t ctrl; int count; unsigned int want_fpr:1; unsigned int got_fpr:1; unsigned char fpr[20]; }; static void find_up_store_certs_cb (void *cb_value, ksba_cert_t cert) { struct find_up_store_certs_s *parm = cb_value; if (keydb_store_cert (parm->ctrl, cert, 1, NULL)) log_error ("error storing issuer certificate as ephemeral\n"); else if (parm->want_fpr && !parm->got_fpr) { if (!gpgsm_get_fingerprint (cert, 0, parm->fpr, NULL)) log_error (_("failed to get the fingerprint\n")); else parm->got_fpr = 1; } parm->count++; } /* Helper for find_up(). Locate the certificate for ISSUER using an external lookup. KH is the keydb context we are currently using. On success 0 is returned and the certificate may be retrieved from the keydb using keydb_get_cert(). KEYID is the keyIdentifier from the AKI or NULL. */ static int find_up_external (ctrl_t ctrl, KEYDB_HANDLE kh, const char *issuer, ksba_sexp_t keyid) { int rc; strlist_t names = NULL; struct find_up_store_certs_s find_up_store_certs_parm; char *pattern; const char *s; find_up_store_certs_parm.ctrl = ctrl; find_up_store_certs_parm.want_fpr = 0; find_up_store_certs_parm.got_fpr = 0; find_up_store_certs_parm.count = 0; if (opt.verbose) log_info (_("looking up issuer at external location\n")); /* The Dirmngr process is confused about unknown attributes. As a quick and ugly hack we locate the CN and use the issuer string starting at this attribite. Fixme: we should have far better parsing for external lookups in the Dirmngr. */ s = strstr (issuer, "CN="); if (!s || s == issuer || s[-1] != ',') s = issuer; pattern = xtrymalloc (strlen (s)+2); if (!pattern) return gpg_error_from_syserror (); strcpy (stpcpy (pattern, "/"), s); add_to_strlist (&names, pattern); xfree (pattern); rc = gpgsm_dirmngr_lookup (ctrl, names, NULL, 0, find_up_store_certs_cb, &find_up_store_certs_parm); free_strlist (names); if (opt.verbose) log_info (_("number of issuers matching: %d\n"), find_up_store_certs_parm.count); if (rc) { log_error ("external key lookup failed: %s\n", gpg_strerror (rc)); - rc = -1; + rc = gpg_error (GPG_ERR_NOT_FOUND); } else if (!find_up_store_certs_parm.count) - rc = -1; + rc = gpg_err_code (rc) == GPG_ERR_NOT_FOUND; else { int old; /* The issuers are currently stored in the ephemeral key DB, so we temporary switch to ephemeral mode. */ old = keydb_set_ephemeral (kh, 1); if (keyid) rc = find_up_search_by_keyid (ctrl, kh, issuer, keyid); else { keydb_search_reset (kh); rc = keydb_search_subject (ctrl, kh, issuer); } keydb_set_ephemeral (kh, old); } return rc; } /* Helper for find_up(). Locate the certificate for CERT using the * caIssuer from the authorityInfoAccess. KH is the keydb context we * are currently using. On success 0 is returned and the certificate * may be retrieved from the keydb using keydb_get_cert(). If no * suitable authorityInfoAccess is encoded in the certificate * GPG_ERR_NOT_FOUND is returned. */ static gpg_error_t find_up_via_auth_info_access (ctrl_t ctrl, KEYDB_HANDLE kh, ksba_cert_t cert) { gpg_error_t err; struct find_up_store_certs_s find_up_store_certs_parm; char *url, *ldapurl; int idx, i; char *oid; ksba_name_t name; find_up_store_certs_parm.ctrl = ctrl; find_up_store_certs_parm.want_fpr = 1; find_up_store_certs_parm.got_fpr = 0; find_up_store_certs_parm.count = 0; /* Find suitable URLs; if there is a http scheme we prefer that. */ url = ldapurl = NULL; for (idx=0; !url && !(err = ksba_cert_get_authority_info_access (cert, idx, &oid, &name)); idx++) { if (!strcmp (oid, oidstr_caIssuers)) { for (i=0; !url && ksba_name_enum (name, i); i++) { char *p = ksba_name_get_uri (name, i); if (p) { if (!strncmp (p, "http:", 5) || !strncmp (p, "https:", 6)) url = p; else if (ldapurl) xfree (p); /* We already got one. */ else if (!strncmp (p, "ldap:",5) || !strncmp (p, "ldaps:",6)) ldapurl = p; } else xfree (p); } } ksba_name_release (name); ksba_free (oid); } if (err && gpg_err_code (err) != GPG_ERR_EOF) { log_error (_("can't get authorityInfoAccess: %s\n"), gpg_strerror (err)); return err; } if (!url && ldapurl) { /* No HTTP scheme; fallback to LDAP if available. */ url = ldapurl; ldapurl = NULL; } xfree (ldapurl); if (!url) return gpg_error (GPG_ERR_NOT_FOUND); if (opt.verbose) log_info ("looking up issuer via authorityInfoAccess.caIssuers\n"); err = gpgsm_dirmngr_lookup (ctrl, NULL, url, 0, find_up_store_certs_cb, &find_up_store_certs_parm); /* Although we might receive several certificates we use only the * first one. Or more exacty the first one for which we retrieved * the fingerprint. */ if (opt.verbose) log_info ("number of caIssuers found: %d\n", find_up_store_certs_parm.count); if (err) { log_error ("external URL lookup failed: %s\n", gpg_strerror (err)); err = gpg_error (GPG_ERR_NOT_FOUND); } else if (!find_up_store_certs_parm.got_fpr) err = gpg_error (GPG_ERR_NOT_FOUND); else { int old; /* The retrieved certificates are currently stored in the * ephemeral key DB, so we temporary switch to ephemeral * mode. */ old = keydb_set_ephemeral (kh, 1); keydb_search_reset (kh); err = keydb_search_fpr (ctrl, kh, find_up_store_certs_parm.fpr); keydb_set_ephemeral (kh, old); } return err; } /* Helper for find_up(). Ask the dirmngr for the certificate for ISSUER with optional SERIALNO. KH is the keydb context we are currently using. With SUBJECT_MODE set, ISSUER is searched as the subject. On success 0 is returned and the certificate is available in the ephemeral DB. */ static int find_up_dirmngr (ctrl_t ctrl, KEYDB_HANDLE kh, ksba_sexp_t serialno, const char *issuer, int subject_mode) { int rc; strlist_t names = NULL; struct find_up_store_certs_s find_up_store_certs_parm; char *pattern; (void)kh; find_up_store_certs_parm.ctrl = ctrl; find_up_store_certs_parm.count = 0; if (opt.verbose) log_info (_("looking up issuer from the Dirmngr cache\n")); if (subject_mode) { pattern = xtrymalloc (strlen (issuer)+2); if (pattern) strcpy (stpcpy (pattern, "/"), issuer); } else if (serialno) pattern = gpgsm_format_sn_issuer (serialno, issuer); else { pattern = xtrymalloc (strlen (issuer)+3); if (pattern) strcpy (stpcpy (pattern, "#/"), issuer); } if (!pattern) return gpg_error_from_syserror (); add_to_strlist (&names, pattern); xfree (pattern); rc = gpgsm_dirmngr_lookup (ctrl, names, NULL, 1, find_up_store_certs_cb, &find_up_store_certs_parm); free_strlist (names); if (opt.verbose) log_info (_("number of matching certificates: %d\n"), find_up_store_certs_parm.count); if (rc && !opt.quiet) log_info (_("dirmngr cache-only key lookup failed: %s\n"), gpg_strerror (rc)); - return (!rc && find_up_store_certs_parm.count)? 0 : -1; + return ((!rc && find_up_store_certs_parm.count) + ? 0 : gpg_error (GPG_ERR_NOT_FOUND)); } /* Locate issuing certificate for CERT. ISSUER is the name of the issuer used as a fallback if the other methods don't work. If FIND_NEXT is true, the function shall return the next possible issuer. The certificate itself is not directly returned but a keydb_get_cert on the keydb context KH will return it. Returns 0 - on success, -1 if not found or an error code. */ -static int + on success, GPG_ERR_NOT_FOUND if not found or another error code. */ +static gpg_error_t find_up (ctrl_t ctrl, KEYDB_HANDLE kh, ksba_cert_t cert, const char *issuer, int find_next) { ksba_name_t authid; ksba_sexp_t authidno; ksba_sexp_t keyid; - int rc = -1; + gpg_error_t err = gpg_error (GPG_ERR_NOT_FOUND); if (DBG_X509) log_debug ("looking for parent certificate\n"); if (!ksba_cert_get_auth_key_id (cert, &keyid, &authid, &authidno)) { const char *s = ksba_name_enum (authid, 0); if (s && *authidno) { - rc = keydb_search_issuer_sn (ctrl, kh, s, authidno); - if (rc) + err = keydb_search_issuer_sn (ctrl, kh, s, authidno); + if (err) keydb_search_reset (kh); - if (!rc && DBG_X509) + if (!err && DBG_X509) log_debug (" found via authid and sn+issuer\n"); /* In case of an error, try to get the certificate from the - dirmngr. That is done by trying to put that certifcate + dirmngr. That is done by trying to put that certificate into the ephemeral DB and let the code below do the actual retrieve. Thus there is no error checking. Skipped in find_next mode as usual. */ - if (rc == -1 && !find_next) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && !find_next) find_up_dirmngr (ctrl, kh, authidno, s, 0); /* In case of an error try the ephemeral DB. We can't do that in find_next mode because we can't keep the search state then. */ - if (rc == -1 && !find_next) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && !find_next) { int old = keydb_set_ephemeral (kh, 1); if (!old) { - rc = keydb_search_issuer_sn (ctrl, kh, s, authidno); - if (rc) + err = keydb_search_issuer_sn (ctrl, kh, s, authidno); + if (err) keydb_search_reset (kh); - if (!rc && DBG_X509) + if (!err && DBG_X509) log_debug (" found via authid and sn+issuer (ephem)\n"); } keydb_set_ephemeral (kh, old); } - if (rc) - rc = -1; /* Need to make sure to have this error code. */ + if (err) /* Need to make sure to have this error code. */ + err = gpg_error (GPG_ERR_NOT_FOUND); } - if (rc == -1 && keyid && !find_next) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && keyid && !find_next) { /* Not found by AKI.issuer_sn. Lets try the AKI.ki instead. Loop over all certificates with that issuer as subject and stop for the one with a matching subjectKeyIdentifier. */ /* Fixme: Should we also search in the dirmngr? */ - rc = find_up_search_by_keyid (ctrl, kh, issuer, keyid); - if (!rc && DBG_X509) + err = find_up_search_by_keyid (ctrl, kh, issuer, keyid); + if (!err && DBG_X509) log_debug (" found via authid and keyid\n"); - if (rc) + if (err) { int old = keydb_set_ephemeral (kh, 1); if (!old) - rc = find_up_search_by_keyid (ctrl, kh, issuer, keyid); - if (!rc && DBG_X509) + err = find_up_search_by_keyid (ctrl, kh, issuer, keyid); + if (!err && DBG_X509) log_debug (" found via authid and keyid (ephem)\n"); keydb_set_ephemeral (kh, old); } - if (rc) - rc = -1; /* Need to make sure to have this error code. */ + if (err) /* Need to make sure to have this error code. */ + err = gpg_error (GPG_ERR_NOT_FOUND); } /* If we still didn't found it, try to find it via the subject from the dirmngr-cache. */ - if (rc == -1 && !find_next) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && !find_next) { if (!find_up_dirmngr (ctrl, kh, NULL, issuer, 1)) { int old = keydb_set_ephemeral (kh, 1); if (keyid) - rc = find_up_search_by_keyid (ctrl, kh, issuer, keyid); + err = find_up_search_by_keyid (ctrl, kh, issuer, keyid); else { keydb_search_reset (kh); - rc = keydb_search_subject (ctrl, kh, issuer); + err = keydb_search_subject (ctrl, kh, issuer); } keydb_set_ephemeral (kh, old); } - if (rc) - rc = -1; /* Need to make sure to have this error code. */ + if (err) /* Need to make sure to have this error code. */ + err = gpg_error (GPG_ERR_NOT_FOUND); - if (!rc && DBG_X509) + if (!err && DBG_X509) log_debug (" found via authid and issuer from dirmngr cache\n"); } /* If we still didn't found it, try an external lookup. */ - if (rc == -1 && !find_next && !ctrl->offline) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND + && !find_next && !ctrl->offline) { /* We allow AIA also if CRLs are enabled; both can be used * as a web bug so it does not make sense to not use AIA if * CRL checks are enabled. */ if ((opt.auto_issuer_key_retrieve || !opt.no_crl_check) && !find_up_via_auth_info_access (ctrl, kh, cert)) { if (DBG_X509) log_debug (" found via authorityInfoAccess.caIssuers\n"); - rc = 0; + err = 0; } else if (opt.auto_issuer_key_retrieve) { - rc = find_up_external (ctrl, kh, issuer, keyid); - if (!rc && DBG_X509) + err = find_up_external (ctrl, kh, issuer, keyid); + if (!err && DBG_X509) log_debug (" found via authid and external lookup\n"); } } /* Print a note so that the user does not feel too helpless when an issuer certificate was found and gpgsm prints BAD signature because it is not the correct one. */ - if (rc == -1 && opt.quiet) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && opt.quiet) ; - else if (rc == -1) + else if (gpg_err_code (err) == GPG_ERR_NOT_FOUND) { log_info ("%sissuer certificate ", find_next?"next ":""); if (keyid) { log_printf ("{"); gpgsm_dump_serial (keyid); log_printf ("} "); } if (authidno) { log_printf ("(#"); gpgsm_dump_serial (authidno); log_printf ("/"); gpgsm_dump_string (s); log_printf (") "); } log_printf ("not found using authorityKeyIdentifier\n"); } - else if (rc) - log_error ("failed to find authorityKeyIdentifier: rc=%d\n", rc); + else if (err) + log_error ("failed to find authorityKeyIdentifier: err=%d\n", err); xfree (keyid); ksba_name_release (authid); xfree (authidno); } - if (rc) /* Not found via authorithyKeyIdentifier, try regular issuer name. */ - rc = keydb_search_subject (ctrl, kh, issuer); - if (rc == -1 && !find_next) + if (err) /* Not found via authorithyKeyIdentifier, try regular issuer name. */ + err = keydb_search_subject (ctrl, kh, issuer); + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && !find_next) { int old; /* Also try to get it from the Dirmngr cache. The function merely puts it into the ephemeral database. */ find_up_dirmngr (ctrl, kh, NULL, issuer, 0); /* Not found, let us see whether we have one in the ephemeral key DB. */ old = keydb_set_ephemeral (kh, 1); if (!old) { keydb_search_reset (kh); - rc = keydb_search_subject (ctrl, kh, issuer); + err = keydb_search_subject (ctrl, kh, issuer); } keydb_set_ephemeral (kh, old); - if (!rc && DBG_X509) + if (!err && DBG_X509) log_debug (" found via issuer\n"); } /* Still not found. If enabled, try an external lookup. */ - if (rc == -1 && !find_next && !ctrl->offline) + if (gpg_err_code (err) == GPG_ERR_NOT_FOUND && !find_next && !ctrl->offline) { if ((opt.auto_issuer_key_retrieve || !opt.no_crl_check) && !find_up_via_auth_info_access (ctrl, kh, cert)) { if (DBG_X509) log_debug (" found via authorityInfoAccess.caIssuers\n"); - rc = 0; + err = 0; } else if (opt.auto_issuer_key_retrieve) { - rc = find_up_external (ctrl, kh, issuer, NULL); - if (!rc && DBG_X509) + err = find_up_external (ctrl, kh, issuer, NULL); + if (!err && DBG_X509) log_debug (" found via issuer and external lookup\n"); } } - return rc; + return err; } /* Return the next certificate up in the chain starting at START. Returns -1 when there are no more certificates. */ int gpgsm_walk_cert_chain (ctrl_t ctrl, ksba_cert_t start, ksba_cert_t *r_next) { - int rc = 0; + gpg_error_t err = 0; char *issuer = NULL; char *subject = NULL; KEYDB_HANDLE kh = keydb_new (); *r_next = NULL; if (!kh) { log_error (_("failed to allocate keyDB handle\n")); - rc = gpg_error (GPG_ERR_GENERAL); + err = gpg_error (GPG_ERR_GENERAL); goto leave; } issuer = ksba_cert_get_issuer (start, 0); subject = ksba_cert_get_subject (start, 0); if (!issuer) { log_error ("no issuer found in certificate\n"); - rc = gpg_error (GPG_ERR_BAD_CERT); + err = gpg_error (GPG_ERR_BAD_CERT); goto leave; } if (!subject) { log_error ("no subject found in certificate\n"); - rc = gpg_error (GPG_ERR_BAD_CERT); + err = gpg_error (GPG_ERR_BAD_CERT); goto leave; } if (is_root_cert (start, issuer, subject)) { - rc = -1; /* we are at the root */ + err = gpg_error (GPG_ERR_NOT_FOUND); /* we are at the root */ goto leave; } - rc = find_up (ctrl, kh, start, issuer, 0); - if (rc) + err = find_up (ctrl, kh, start, issuer, 0); + if (err) { /* It is quite common not to have a certificate, so better don't print an error here. */ - if (rc != -1 && opt.verbose > 1) - log_error ("failed to find issuer's certificate: rc=%d\n", rc); - rc = gpg_error (GPG_ERR_MISSING_ISSUER_CERT); + if (gpg_err_code (err) != GPG_ERR_NOT_FOUND && opt.verbose > 1) + log_error ("failed to find issuer's certificate: %s <%s>\n", + gpg_strerror (err), gpg_strsource (err)); + err = gpg_error (GPG_ERR_MISSING_ISSUER_CERT); goto leave; } - rc = keydb_get_cert (kh, r_next); - if (rc) + err = keydb_get_cert (kh, r_next); + if (err) { - log_error ("keydb_get_cert() failed: rc=%d\n", rc); - rc = gpg_error (GPG_ERR_GENERAL); + log_error ("keydb_get_cert() failed: %s <%s>\n", + gpg_strerror (err), gpg_strsource (err)); + err = gpg_error (GPG_ERR_GENERAL); } leave: xfree (issuer); xfree (subject); keydb_release (kh); - return rc; + return err; } /* Helper for gpgsm_is_root_cert. This one is used if the subject and issuer DNs are already known. */ static int is_root_cert (ksba_cert_t cert, const char *issuerdn, const char *subjectdn) { gpg_error_t err; int result = 0; ksba_sexp_t serialno; ksba_sexp_t ak_keyid; ksba_name_t ak_name; ksba_sexp_t ak_sn; const char *ak_name_str; ksba_sexp_t subj_keyid = NULL; if (!issuerdn || !subjectdn) return 0; /* No. */ if (strcmp (issuerdn, subjectdn)) return 0; /* No. */ err = ksba_cert_get_auth_key_id (cert, &ak_keyid, &ak_name, &ak_sn); if (err) { if (gpg_err_code (err) == GPG_ERR_NO_DATA) return 1; /* Yes. Without a authorityKeyIdentifier this needs - to be the Root certifcate (our trust anchor). */ + to be the Root certificate (our trust anchor). */ log_error ("error getting authorityKeyIdentifier: %s\n", gpg_strerror (err)); return 0; /* Well, it is broken anyway. Return No. */ } serialno = ksba_cert_get_serial (cert); if (!serialno) { log_error ("error getting serialno: %s\n", gpg_strerror (err)); goto leave; } /* Check whether the auth name's matches the issuer name+sn. If that is the case this is a root certificate. */ ak_name_str = ksba_name_enum (ak_name, 0); if (ak_name_str && !strcmp (ak_name_str, issuerdn) && !cmp_simple_canon_sexp (ak_sn, serialno)) { result = 1; /* Right, CERT is self-signed. */ goto leave; } /* Similar for the ak_keyid. */ if (ak_keyid && !ksba_cert_get_subj_key_id (cert, NULL, &subj_keyid) && !cmp_simple_canon_sexp (ak_keyid, subj_keyid)) { result = 1; /* Right, CERT is self-signed. */ goto leave; } leave: ksba_free (subj_keyid); ksba_free (ak_keyid); ksba_name_release (ak_name); ksba_free (ak_sn); ksba_free (serialno); return result; } /* Check whether the CERT is a root certificate. Returns True if this is the case. */ int gpgsm_is_root_cert (ksba_cert_t cert) { char *issuer; char *subject; int yes; issuer = ksba_cert_get_issuer (cert, 0); subject = ksba_cert_get_subject (cert, 0); yes = is_root_cert (cert, issuer, subject); xfree (issuer); xfree (subject); return yes; } /* This is a helper for gpgsm_validate_chain. */ static gpg_error_t is_cert_still_valid (ctrl_t ctrl, int force_ocsp, int lm, estream_t fp, ksba_cert_t subject_cert, ksba_cert_t issuer_cert, int *any_revoked, int *any_no_crl, int *any_crl_too_old) { gpg_error_t err; if (ctrl->offline || (opt.no_crl_check && !ctrl->use_ocsp)) { audit_log_ok (ctrl->audit, AUDIT_CRL_CHECK, gpg_error (GPG_ERR_NOT_ENABLED)); return 0; } if (!(force_ocsp || ctrl->use_ocsp) && !opt.enable_issuer_based_crl_check) { err = ksba_cert_get_crl_dist_point (subject_cert, 0, NULL, NULL, NULL); if (gpg_err_code (err) == GPG_ERR_EOF) { /* No DP specified in the certificate. Thus the CA does not * consider a CRL useful and the user of the certificate * also does not consider this to be a critical thing. In * this case we can conclude that the certificate shall not * be revocable. Note that we reach this point here only if * no OCSP responder shall be used. */ audit_log_ok (ctrl->audit, AUDIT_CRL_CHECK, gpg_error (GPG_ERR_TRUE)); return 0; } } err = gpgsm_dirmngr_isvalid (ctrl, subject_cert, issuer_cert, force_ocsp? 2 : !!ctrl->use_ocsp); audit_log_ok (ctrl->audit, AUDIT_CRL_CHECK, err); if (err) { if (!lm) gpgsm_cert_log_name (NULL, subject_cert); switch (gpg_err_code (err)) { case GPG_ERR_CERT_REVOKED: do_list (1, lm, fp, _("certificate has been revoked")); *any_revoked = 1; /* Store that in the keybox so that key listings are able to return the revoked flag. We don't care about error, though. */ keydb_set_cert_flags (ctrl, subject_cert, 1, KEYBOX_FLAG_VALIDITY, 0, ~0, VALIDITY_REVOKED); break; case GPG_ERR_NO_CRL_KNOWN: do_list (1, lm, fp, _("no CRL found for certificate")); *any_no_crl = 1; break; case GPG_ERR_NO_DATA: do_list (1, lm, fp, _("the status of the certificate is unknown")); *any_no_crl = 1; break; case GPG_ERR_CRL_TOO_OLD: do_list (1, lm, fp, _("the available CRL is too old")); if (!lm) log_info (_("please make sure that the " "\"dirmngr\" is properly installed\n")); *any_crl_too_old = 1; break; default: do_list (1, lm, fp, _("checking the CRL failed: %s"), gpg_strerror (err)); return err; } } return 0; } /* Helper for gpgsm_validate_chain to check the validity period of SUBJECT_CERT. The caller needs to pass EXPTIME which will be updated to the nearest expiration time seen. A DEPTH of 0 indicates the target certificate, -1 the final root certificate and other values intermediate certificates. */ static gpg_error_t check_validity_period (ksba_isotime_t current_time, ksba_cert_t subject_cert, ksba_isotime_t exptime, int listmode, estream_t listfp, int depth) { gpg_error_t err; ksba_isotime_t not_before, not_after; err = ksba_cert_get_validity (subject_cert, 0, not_before); if (!err) err = ksba_cert_get_validity (subject_cert, 1, not_after); if (err) { do_list (1, listmode, listfp, _("certificate with invalid validity: %s"), gpg_strerror (err)); return gpg_error (GPG_ERR_BAD_CERT); } if (*not_after) { if (!*exptime) gnupg_copy_time (exptime, not_after); else if (strcmp (not_after, exptime) < 0 ) gnupg_copy_time (exptime, not_after); } if (*not_before && strcmp (current_time, not_before) < 0 ) { do_list (1, listmode, listfp, depth == 0 ? _("certificate not yet valid") : depth == -1 ? _("root certificate not yet valid") : /* other */ _("intermediate certificate not yet valid")); if (!listmode) { log_info (" (valid from "); dump_isotime (not_before); log_printf (")\n"); } return gpg_error (GPG_ERR_CERT_TOO_YOUNG); } if (*not_after && strcmp (current_time, not_after) > 0 ) { do_list (opt.ignore_expiration?0:1, listmode, listfp, depth == 0 ? _("certificate has expired") : depth == -1 ? _("root certificate has expired") : /* other */ _("intermediate certificate has expired")); if (!listmode) { log_info (" (expired at "); dump_isotime (not_after); log_printf (")\n"); } if (opt.ignore_expiration) log_info ("WARNING: ignoring expiration\n"); else return gpg_error (GPG_ERR_CERT_EXPIRED); } return 0; } /* This is a variant of check_validity_period used with the chain - model. The dextra contraint here is that notBefore and notAfter + model. The extra contraint here is that notBefore and notAfter must exists and if the additional argument CHECK_TIME is given this time is used to check the validity period of SUBJECT_CERT. */ static gpg_error_t check_validity_period_cm (ksba_isotime_t current_time, ksba_isotime_t check_time, ksba_cert_t subject_cert, ksba_isotime_t exptime, int listmode, estream_t listfp, int depth) { gpg_error_t err; ksba_isotime_t not_before, not_after; err = ksba_cert_get_validity (subject_cert, 0, not_before); if (!err) err = ksba_cert_get_validity (subject_cert, 1, not_after); if (err) { do_list (1, listmode, listfp, _("certificate with invalid validity: %s"), gpg_strerror (err)); return gpg_error (GPG_ERR_BAD_CERT); } if (!*not_before || !*not_after) { do_list (1, listmode, listfp, _("required certificate attributes missing: %s%s%s"), !*not_before? "notBefore":"", (!*not_before && !*not_after)? ", ":"", !*not_before? "notAfter":""); return gpg_error (GPG_ERR_BAD_CERT); } if (strcmp (not_before, not_after) > 0 ) { do_list (1, listmode, listfp, _("certificate with invalid validity")); log_info (" (valid from "); dump_isotime (not_before); log_printf (" expired at "); dump_isotime (not_after); log_printf (")\n"); return gpg_error (GPG_ERR_BAD_CERT); } if (!*exptime) gnupg_copy_time (exptime, not_after); else if (strcmp (not_after, exptime) < 0 ) gnupg_copy_time (exptime, not_after); if (strcmp (current_time, not_before) < 0 ) { do_list (1, listmode, listfp, depth == 0 ? _("certificate not yet valid") : depth == -1 ? _("root certificate not yet valid") : /* other */ _("intermediate certificate not yet valid")); if (!listmode) { log_info (" (valid from "); dump_isotime (not_before); log_printf (")\n"); } return gpg_error (GPG_ERR_CERT_TOO_YOUNG); } if (*check_time && (strcmp (check_time, not_before) < 0 || strcmp (check_time, not_after) > 0)) { /* Note that we don't need a case for the root certificate - because its own consitency has already been checked. */ + because its own consistency has already been checked. */ do_list(opt.ignore_expiration?0:1, listmode, listfp, depth == 0 ? _("signature not created during lifetime of certificate") : depth == 1 ? _("certificate not created during lifetime of issuer") : _("intermediate certificate not created during lifetime " "of issuer")); if (!listmode) { log_info (depth== 0? _(" ( signature created at ") : /* */ _(" (certificate created at ") ); dump_isotime (check_time); log_printf (")\n"); log_info (depth==0? _(" (certificate valid from ") : /* */ _(" ( issuer valid from ") ); dump_isotime (not_before); log_info (" to "); dump_isotime (not_after); log_printf (")\n"); } if (opt.ignore_expiration) log_info ("WARNING: ignoring expiration\n"); else return gpg_error (GPG_ERR_CERT_EXPIRED); } return 0; } /* Ask the user whether he wants to mark the certificate CERT trusted. Returns true if the CERT is the trusted. We also check whether the agent is at all enabled to allow marktrusted and don't call it in this session again if it is not. */ static int ask_marktrusted (ctrl_t ctrl, ksba_cert_t cert, int listmode) { static int no_more_questions; int rc; char *fpr; int success = 0; fpr = gpgsm_get_fingerprint_string (cert, GCRY_MD_SHA1); log_info (_("fingerprint=%s\n"), fpr? fpr : "?"); xfree (fpr); if (no_more_questions) rc = gpg_error (GPG_ERR_NOT_SUPPORTED); else rc = gpgsm_agent_marktrusted (ctrl, cert); if (!rc) { log_info (_("root certificate has now been marked as trusted\n")); success = 1; } else if (!listmode) { gpgsm_dump_cert ("issuer", cert); log_info ("after checking the fingerprint, you may want " "to add it manually to the list of trusted certificates.\n"); } if (gpg_err_code (rc) == GPG_ERR_NOT_SUPPORTED) { if (!no_more_questions) log_info (_("interactive marking as trusted " "not enabled in gpg-agent\n")); no_more_questions = 1; } else if (gpg_err_code (rc) == GPG_ERR_CANCELED) { log_info (_("interactive marking as trusted " "disabled for this session\n")); no_more_questions = 1; } else set_already_asked_marktrusted (cert); return success; } /* Validate a chain and optionally return the nearest expiration time in R_EXPTIME. With LISTMODE set to 1 a special listmode is activated where only information about the certificate is printed to LISTFP and no output is send to the usual log stream. If CHECKTIME_ARG is set, it is used only in the chain model instead of the current time. Defined flag bits VALIDATE_FLAG_NO_DIRMNGR - Do not do any dirmngr isvalid checks. VALIDATE_FLAG_CHAIN_MODEL - Check according to chain model. VALIDATE_FLAG_STEED - Check according to the STEED model. */ static int do_validate_chain (ctrl_t ctrl, ksba_cert_t cert, ksba_isotime_t checktime_arg, ksba_isotime_t r_exptime, int listmode, estream_t listfp, unsigned int flags, struct rootca_flags_s *rootca_flags) { int rc = 0, depth, maxdepth; char *issuer = NULL; char *subject = NULL; KEYDB_HANDLE kh = NULL; ksba_cert_t subject_cert = NULL, issuer_cert = NULL; ksba_isotime_t current_time; ksba_isotime_t check_time; ksba_isotime_t exptime; int any_expired = 0; int any_revoked = 0; int any_no_crl = 0; int any_crl_too_old = 0; int any_no_policy_match = 0; int is_qualified = -1; /* Indicates whether the certificate stems from a qualified root certificate. -1 = unknown, 0 = no, 1 = yes. */ chain_item_t chain = NULL; /* A list of all certificates in the chain. */ gnupg_get_isotime (current_time); gnupg_copy_time (ctrl->current_time, current_time); if ( (flags & VALIDATE_FLAG_CHAIN_MODEL) ) { if (!strcmp (checktime_arg, "19700101T000000")) { do_list (1, listmode, listfp, _("WARNING: creation time of signature not known - " "assuming current time")); gnupg_copy_time (check_time, current_time); } else gnupg_copy_time (check_time, checktime_arg); } else *check_time = 0; if (r_exptime) *r_exptime = 0; *exptime = 0; if (opt.no_chain_validation && !listmode) { log_info ("WARNING: bypassing certificate chain validation\n"); return 0; } kh = keydb_new (); if (!kh) { log_error (_("failed to allocate keyDB handle\n")); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } if (DBG_X509 && !listmode) gpgsm_dump_cert ("target", cert); subject_cert = cert; ksba_cert_ref (subject_cert); maxdepth = 50; depth = 0; for (;;) { int is_root; - gpg_error_t istrusted_rc = -1; + gpg_error_t istrusted_rc = gpg_error (GPG_ERR_NOT_TRUSTED); /* Put the certificate on our list. */ { chain_item_t ci; ci = xtrycalloc (1, sizeof *ci); if (!ci) { rc = gpg_error_from_syserror (); goto leave; } ksba_cert_ref (subject_cert); ci->cert = subject_cert; ci->next = chain; chain = ci; } xfree (issuer); xfree (subject); issuer = ksba_cert_get_issuer (subject_cert, 0); subject = ksba_cert_get_subject (subject_cert, 0); if (!issuer) { do_list (1, listmode, listfp, _("no issuer found in certificate")); rc = gpg_error (GPG_ERR_BAD_CERT); goto leave; } /* Is this a self-issued certificate (i.e. the root certificate)? */ is_root = is_root_cert (subject_cert, issuer, subject); if (is_root) { chain->is_root = 1; /* Check early whether the certificate is listed as trusted. We used to do this only later but changed it to call the check right here so that we can access special flags associated with that specific root certificate. */ if (gpgsm_cert_has_well_known_private_key (subject_cert)) { memset (rootca_flags, 0, sizeof *rootca_flags); istrusted_rc = ((flags & VALIDATE_FLAG_STEED) ? 0 : gpg_error (GPG_ERR_NOT_TRUSTED)); } else istrusted_rc = gpgsm_agent_istrusted (ctrl, subject_cert, NULL, rootca_flags); audit_log_cert (ctrl->audit, AUDIT_ROOT_TRUSTED, subject_cert, istrusted_rc); /* If the chain model extended attribute is used, make sure that our chain model flag is set. */ if (!(flags & VALIDATE_FLAG_STEED) && has_validation_model_chain (subject_cert, listmode, listfp)) rootca_flags->chain_model = 1; } /* Check the validity period. */ if ( (flags & VALIDATE_FLAG_CHAIN_MODEL) ) rc = check_validity_period_cm (current_time, check_time, subject_cert, exptime, listmode, listfp, (depth && is_root)? -1: depth); else rc = check_validity_period (current_time, subject_cert, exptime, listmode, listfp, (depth && is_root)? -1: depth); if (gpg_err_code (rc) == GPG_ERR_CERT_EXPIRED) any_expired = 1; else if (rc) goto leave; /* Assert that we understand all critical extensions. */ rc = unknown_criticals (subject_cert, listmode, listfp); if (rc) goto leave; /* Do a policy check. */ if (!opt.no_policy_check) { rc = check_cert_policy (subject_cert, listmode, listfp); if (gpg_err_code (rc) == GPG_ERR_NO_POLICY_MATCH) { any_no_policy_match = 1; rc = 1; /* Be on the safe side and set RC. */ } else if (rc) goto leave; } /* If this is the root certificate we are at the end of the chain. */ if (is_root) { if (!istrusted_rc) ; /* No need to check the certificate for a trusted one. */ else if (gpgsm_check_cert_sig (subject_cert, subject_cert) ) { /* We only check the signature if the certificate is not trusted for better diagnostics. */ do_list (1, listmode, listfp, _("self-signed certificate has a BAD signature")); if (DBG_X509) { gpgsm_dump_cert ("self-signing cert", subject_cert); } rc = gpg_error (depth? GPG_ERR_BAD_CERT_CHAIN : GPG_ERR_BAD_CERT); goto leave; } if (!rootca_flags->relax) { rc = allowed_ca (ctrl, subject_cert, NULL, listmode, listfp); if (rc) goto leave; } /* Set the flag for qualified signatures. This flag is deduced from a list of root certificates allowed for qualified signatures. */ if (is_qualified == -1 && !(flags & VALIDATE_FLAG_STEED)) { gpg_error_t err; size_t buflen; char buf[1]; if (!ksba_cert_get_user_data (cert, "is_qualified", &buf, sizeof (buf), &buflen) && buflen) { /* We already checked this for this certificate, thus we simply take it from the user data. */ is_qualified = !!*buf; } else { /* Need to consult the list of root certificates for qualified signatures. */ err = gpgsm_is_in_qualified_list (ctrl, subject_cert, NULL); if (!err) is_qualified = 1; - else if ( gpg_err_code (err) == GPG_ERR_NOT_FOUND) + else if ( gpg_err_code (err) == GPG_ERR_NOT_FOUND ) is_qualified = 0; else log_error ("checking the list of qualified " "root certificates failed: %s\n", gpg_strerror (err)); if ( is_qualified != -1 ) { /* Cache the result but don't care too much about an error. */ buf[0] = !!is_qualified; err = ksba_cert_set_user_data (subject_cert, "is_qualified", buf, 1); if (err) log_error ("set_user_data(is_qualified) failed: %s\n", gpg_strerror (err)); } } } /* Act on the check for a trusted root certificates. */ rc = istrusted_rc; if (!rc) ; else if (gpg_err_code (rc) == GPG_ERR_NOT_TRUSTED) { do_list (0, listmode, listfp, _("root certificate is not marked trusted")); /* If we already figured out that the certificate is expired it does not make much sense to ask the user whether they want to trust the root certificate. We should do this only if the certificate under question will then be usable. If the certificate has a well known private key asking the user does not make any sense. */ if ( !any_expired && !gpgsm_cert_has_well_known_private_key (subject_cert) && (!listmode || !already_asked_marktrusted (subject_cert)) && ask_marktrusted (ctrl, subject_cert, listmode) ) rc = 0; } else { log_error (_("checking the trust list failed: %s\n"), gpg_strerror (rc)); } if (rc) goto leave; /* Check for revocations etc. */ if ((flags & VALIDATE_FLAG_NO_DIRMNGR)) ; else if ((flags & VALIDATE_FLAG_STEED)) ; /* Fixme: check revocations via DNS. */ else if (opt.no_trusted_cert_crl_check || rootca_flags->relax) ; else rc = is_cert_still_valid (ctrl, (flags & VALIDATE_FLAG_CHAIN_MODEL), listmode, listfp, subject_cert, subject_cert, &any_revoked, &any_no_crl, &any_crl_too_old); if (rc) goto leave; - break; /* Okay: a self-signed certicate is an end-point. */ + break; /* Okay: a self-signed certificate is an end-point. */ } /* End is_root. */ /* Take care that the chain does not get too long. */ if ((depth+1) > maxdepth) { do_list (1, listmode, listfp, _("certificate chain too long\n")); rc = gpg_error (GPG_ERR_BAD_CERT_CHAIN); goto leave; } /* Find the next cert up the tree. */ keydb_search_reset (kh); rc = find_up (ctrl, kh, subject_cert, issuer, 0); if (rc) { - if (rc == -1) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) { do_list (0, listmode, listfp, _("issuer certificate not found")); if (!listmode) { log_info ("issuer certificate: #/"); gpgsm_dump_string (issuer); log_printf ("\n"); } } else - log_error ("failed to find issuer's certificate: rc=%d\n", rc); + log_error ("failed to find issuer's certificate: %s <%s>\n", + gpg_strerror (rc), gpg_strsource (rc)); rc = gpg_error (GPG_ERR_MISSING_ISSUER_CERT); goto leave; } ksba_cert_release (issuer_cert); issuer_cert = NULL; rc = keydb_get_cert (kh, &issuer_cert); if (rc) { log_error ("keydb_get_cert() failed: rc=%d\n", rc); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } try_another_cert: if (DBG_X509) { log_debug ("got issuer's certificate:\n"); gpgsm_dump_cert ("issuer", issuer_cert); } rc = gpgsm_check_cert_sig (issuer_cert, subject_cert); if (rc) { do_list (0, listmode, listfp, _("certificate has a BAD signature")); if (DBG_X509) { gpgsm_dump_cert ("signing issuer", issuer_cert); gpgsm_dump_cert ("signed subject", subject_cert); } if (gpg_err_code (rc) == GPG_ERR_BAD_SIGNATURE) { /* We now try to find other issuer certificates which might have been used. This is required because some CAs are reusing the issuer and subject DN for new root certificates. */ /* FIXME: Do this only if we don't have an AKI.keyIdentifier */ rc = find_up (ctrl, kh, subject_cert, issuer, 1); if (!rc) { ksba_cert_t tmp_cert; rc = keydb_get_cert (kh, &tmp_cert); if (rc || !compare_certs (issuer_cert, tmp_cert)) { /* The find next did not work or returned an identical certificate. We better stop here to avoid infinite checks. */ /* No need to set RC because it is not used: rc = gpg_error (GPG_ERR_BAD_SIGNATURE); */ ksba_cert_release (tmp_cert); } else { do_list (0, listmode, listfp, _("found another possible matching " "CA certificate - trying again")); ksba_cert_release (issuer_cert); issuer_cert = tmp_cert; goto try_another_cert; } } } /* We give a more descriptive error code than the one returned from the signature checking. */ rc = gpg_error (GPG_ERR_BAD_CERT_CHAIN); goto leave; } is_root = gpgsm_is_root_cert (issuer_cert); - istrusted_rc = -1; + istrusted_rc = gpg_error (GPG_ERR_NOT_TRUSTED); /* Check that a CA is allowed to issue certificates. */ { int chainlen; rc = allowed_ca (ctrl, issuer_cert, &chainlen, listmode, listfp); if (rc) { /* Not allowed. Check whether this is a trusted root certificate and whether we allow special exceptions. We could carry the result of the test over to the regular root check at the top of the loop but for clarity we won't do that. Given that the majority of certificates carry proper BasicContraints our way of overriding an error in the way is justified for performance reasons. */ if (is_root) { if (gpgsm_cert_has_well_known_private_key (issuer_cert)) { memset (rootca_flags, 0, sizeof *rootca_flags); istrusted_rc = ((flags & VALIDATE_FLAG_STEED) ? 0 : gpg_error (GPG_ERR_NOT_TRUSTED)); } else istrusted_rc = gpgsm_agent_istrusted (ctrl, issuer_cert, NULL, rootca_flags); if (!istrusted_rc && rootca_flags->relax) { /* Ignore the error due to the relax flag. */ rc = 0; chainlen = -1; } } } if (rc) goto leave; if (chainlen >= 0 && depth > chainlen) { do_list (1, listmode, listfp, _("certificate chain longer than allowed by CA (%d)"), chainlen); rc = gpg_error (GPG_ERR_BAD_CERT_CHAIN); goto leave; } } /* Is the certificate allowed to sign other certificates. */ if (!listmode) { rc = gpgsm_cert_use_cert_p (issuer_cert); if (rc) { char numbuf[50]; sprintf (numbuf, "%d", rc); gpgsm_status2 (ctrl, STATUS_ERROR, "certcert.issuer.keyusage", numbuf, NULL); goto leave; } } /* Check for revocations etc. Note that for a root certificate this test is done a second time later. This should eventually be fixed. */ if ((flags & VALIDATE_FLAG_NO_DIRMNGR)) rc = 0; else if ((flags & VALIDATE_FLAG_STEED)) rc = 0; /* Fixme: XXX */ else if (is_root && (opt.no_trusted_cert_crl_check || (!istrusted_rc && rootca_flags->relax))) rc = 0; else rc = is_cert_still_valid (ctrl, (flags & VALIDATE_FLAG_CHAIN_MODEL), listmode, listfp, subject_cert, issuer_cert, &any_revoked, &any_no_crl, &any_crl_too_old); if (rc) goto leave; if (opt.verbose && !listmode) log_info (depth == 0 ? _("certificate is good\n") : !is_root ? _("intermediate certificate is good\n") : /* other */ _("root certificate is good\n")); /* Under the chain model the next check time is the creation time of the subject certificate. */ if ( (flags & VALIDATE_FLAG_CHAIN_MODEL) ) { rc = ksba_cert_get_validity (subject_cert, 0, check_time); if (rc) { /* That will never happen as we have already checked this above. */ BUG (); } } /* For the next round the current issuer becomes the new subject. */ keydb_search_reset (kh); ksba_cert_release (subject_cert); subject_cert = issuer_cert; issuer_cert = NULL; depth++; } /* End chain traversal. */ if (!listmode && !opt.quiet) { if (opt.no_policy_check) log_info ("policies not checked due to %s option\n", "--disable-policy-checks"); if (ctrl->offline || (opt.no_crl_check && !ctrl->use_ocsp)) log_info ("CRLs not checked due to %s option\n", ctrl->offline ? "offline" : "--disable-crl-checks"); } if (!rc) { /* If we encountered an error somewhere during the checks, set the error code to the most critical one */ if (any_revoked) rc = gpg_error (GPG_ERR_CERT_REVOKED); else if (any_expired) rc = gpg_error (GPG_ERR_CERT_EXPIRED); else if (any_no_crl) rc = gpg_error (GPG_ERR_NO_CRL_KNOWN); else if (any_crl_too_old) rc = gpg_error (GPG_ERR_CRL_TOO_OLD); else if (any_no_policy_match) rc = gpg_error (GPG_ERR_NO_POLICY_MATCH); } leave: /* If we have traversed a complete chain up to the root we will reset the ephemeral flag for all these certificates. This is done regardless of any error because those errors may only be transient. */ if (chain && chain->is_root) { gpg_error_t err; chain_item_t ci; for (ci = chain; ci; ci = ci->next) { /* Note that it is possible for the last certificate in the chain (i.e. our target certificate) that it has not yet been stored in the keybox and thus the flag can't be set. We ignore this error because it will later be stored anyway. */ err = keydb_set_cert_flags (ctrl, ci->cert, 1, KEYBOX_FLAG_BLOB, 0, KEYBOX_FLAG_BLOB_EPHEMERAL, 0); if (!ci->next && gpg_err_code (err) == GPG_ERR_NOT_FOUND) ; else if (err) log_error ("clearing ephemeral flag failed: %s\n", gpg_strerror (err)); } } /* If we have figured something about the qualified signature capability of the certificate under question, store the result as user data in all certificates of the chain. We do this even if the validation itself failed. */ if (is_qualified != -1 && !(flags & VALIDATE_FLAG_STEED)) { gpg_error_t err; chain_item_t ci; char buf[1]; buf[0] = !!is_qualified; for (ci = chain; ci; ci = ci->next) { err = ksba_cert_set_user_data (ci->cert, "is_qualified", buf, 1); if (err) { log_error ("set_user_data(is_qualified) failed: %s\n", gpg_strerror (err)); if (!rc) rc = err; } } } /* If auditing has been enabled, record what is in the chain. */ if (ctrl->audit) { chain_item_t ci; audit_log (ctrl->audit, AUDIT_CHAIN_BEGIN); for (ci = chain; ci; ci = ci->next) { audit_log_cert (ctrl->audit, ci->is_root? AUDIT_CHAIN_ROOTCERT : AUDIT_CHAIN_CERT, ci->cert, 0); } audit_log (ctrl->audit, AUDIT_CHAIN_END); } if (r_exptime) gnupg_copy_time (r_exptime, exptime); xfree (issuer); xfree (subject); keydb_release (kh); while (chain) { chain_item_t ci_next = chain->next; ksba_cert_release (chain->cert); xfree (chain); chain = ci_next; } ksba_cert_release (issuer_cert); ksba_cert_release (subject_cert); return rc; } /* Validate a certificate chain. For a description see do_validate_chain. This function is a wrapper to handle a root certificate with the chain_model flag set. If RETFLAGS is not NULL, flags indicating now the verification was done are stored - there. The only defined vits for RETFLAGS are + there. The only defined bits for RETFLAGS are VALIDATE_FLAG_CHAIN_MODEL and VALIDATE_FLAG_STEED. If you are verifying a signature you should set CHECKTIME to the creation time of the signature. If your are verifying a certificate, set it nil (i.e. the empty string). If the creation date of the signature is not known use the special date "19700101T000000" which is treated in a special way here. */ int gpgsm_validate_chain (ctrl_t ctrl, ksba_cert_t cert, ksba_isotime_t checktime, ksba_isotime_t r_exptime, int listmode, estream_t listfp, unsigned int flags, unsigned int *retflags) { int rc; struct rootca_flags_s rootca_flags; unsigned int dummy_retflags; if (!retflags) retflags = &dummy_retflags; /* If the session requested a certain validation mode make sure the corresponding flags are set. */ if (ctrl->validation_model == 1) flags |= VALIDATE_FLAG_CHAIN_MODEL; else if (ctrl->validation_model == 2) flags |= VALIDATE_FLAG_STEED; /* If the chain model was forced, set this immediately into RETFLAGS. */ *retflags = (flags & VALIDATE_FLAG_CHAIN_MODEL); memset (&rootca_flags, 0, sizeof rootca_flags); rc = do_validate_chain (ctrl, cert, checktime, r_exptime, listmode, listfp, flags, &rootca_flags); if (!rc && (flags & VALIDATE_FLAG_STEED)) { *retflags |= VALIDATE_FLAG_STEED; } else if (gpg_err_code (rc) == GPG_ERR_CERT_EXPIRED && !(flags & VALIDATE_FLAG_CHAIN_MODEL) && (rootca_flags.valid && rootca_flags.chain_model)) { /* The root CA indicated that the chain model is to be used but * we have not yet used it. Thus do the validation again using * the chain model. */ if (opt.verbose) do_list (0, listmode, listfp, _("switching to chain model")); rc = do_validate_chain (ctrl, cert, checktime, r_exptime, listmode, listfp, (flags |= VALIDATE_FLAG_CHAIN_MODEL), &rootca_flags); *retflags |= VALIDATE_FLAG_CHAIN_MODEL; } if (opt.verbose) do_list (0, listmode, listfp, _("validation model used: %s"), (*retflags & VALIDATE_FLAG_STEED)? "steed" : (*retflags & VALIDATE_FLAG_CHAIN_MODEL)? _("chain"):_("shell")); return rc; } /* Check that the given certificate is valid but DO NOT check any constraints. We assume that the issuers certificate is already in the DB and that this one is valid; which it should be because it has been checked using this function. */ int gpgsm_basic_cert_check (ctrl_t ctrl, ksba_cert_t cert) { int rc = 0; char *issuer = NULL; char *subject = NULL; KEYDB_HANDLE kh; ksba_cert_t issuer_cert = NULL; if (opt.no_chain_validation) { log_info ("WARNING: bypassing basic certificate checks\n"); return 0; } kh = keydb_new (); if (!kh) { log_error (_("failed to allocate keyDB handle\n")); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } issuer = ksba_cert_get_issuer (cert, 0); subject = ksba_cert_get_subject (cert, 0); if (!issuer) { log_error ("no issuer found in certificate\n"); rc = gpg_error (GPG_ERR_BAD_CERT); goto leave; } if (is_root_cert (cert, issuer, subject)) { rc = gpgsm_check_cert_sig (cert, cert); if (rc) { log_error ("self-signed certificate has a BAD signature: %s\n", gpg_strerror (rc)); if (DBG_X509) { gpgsm_dump_cert ("self-signing cert", cert); } rc = gpg_error (GPG_ERR_BAD_CERT); goto leave; } } else { /* Find the next cert up the tree. */ keydb_search_reset (kh); rc = find_up (ctrl, kh, cert, issuer, 0); if (rc) { - if (rc == -1) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) { log_info ("issuer certificate (#/"); gpgsm_dump_string (issuer); log_printf (") not found\n"); } else - log_error ("failed to find issuer's certificate: rc=%d\n", rc); + log_error ("failed to find issuer's certificate: %s <%s>\n", + gpg_strerror (rc), gpg_strsource (rc)); rc = gpg_error (GPG_ERR_MISSING_ISSUER_CERT); goto leave; } ksba_cert_release (issuer_cert); issuer_cert = NULL; rc = keydb_get_cert (kh, &issuer_cert); if (rc) { log_error ("keydb_get_cert() failed: rc=%d\n", rc); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } rc = gpgsm_check_cert_sig (issuer_cert, cert); if (rc) { log_error ("certificate has a BAD signature: %s\n", gpg_strerror (rc)); if (DBG_X509) { gpgsm_dump_cert ("signing issuer", issuer_cert); gpgsm_dump_cert ("signed subject", cert); } rc = gpg_error (GPG_ERR_BAD_CERT); goto leave; } if (opt.verbose) log_info (_("certificate is good\n")); } leave: xfree (issuer); xfree (subject); keydb_release (kh); ksba_cert_release (issuer_cert); return rc; } /* Check whether the certificate CERT has been issued by the German authority for qualified signature. They do not set the basicConstraints and thus we need this workaround. It works by looking up the root certificate and checking whether that one is listed as a qualified certificate for Germany. We also try to cache this data but as long as don't keep a reference to the certificate this won't be used. Returns: True if CERT is a RegTP issued CA cert (i.e. the root certificate itself or one of the CAs). In that case CHAINLEN will receive the length of the chain which is either 0 or 1. */ static int get_regtp_ca_info (ctrl_t ctrl, ksba_cert_t cert, int *chainlen) { gpg_error_t err; ksba_cert_t next; int rc = 0; int i, depth; char country[3]; ksba_cert_t array[4]; char buf[2]; size_t buflen; int dummy_chainlen; if (!chainlen) chainlen = &dummy_chainlen; *chainlen = 0; err = ksba_cert_get_user_data (cert, "regtp_ca_chainlen", &buf, sizeof (buf), &buflen); if (!err) { /* Got info. */ if (buflen < 2 || !*buf) return 0; /* Nothing found. */ *chainlen = buf[1]; return 1; /* This is a regtp CA. */ } else if (gpg_err_code (err) != GPG_ERR_NOT_FOUND) { log_error ("ksba_cert_get_user_data(%s) failed: %s\n", "regtp_ca_chainlen", gpg_strerror (err)); return 0; /* Nothing found. */ } /* Need to gather the info. This requires to walk up the chain until we have found the root. Because we are only interested in German Bundesnetzagentur (former RegTP) derived certificates 3 levels are enough. (The German signature law demands a 3 tier hierarchy; thus there is only one CA between the EE and the Root CA.) */ memset (&array, 0, sizeof array); depth = 0; ksba_cert_ref (cert); array[depth++] = cert; ksba_cert_ref (cert); while (depth < DIM(array) && !(rc=gpgsm_walk_cert_chain (ctrl, cert, &next))) { ksba_cert_release (cert); ksba_cert_ref (next); array[depth++] = next; cert = next; } ksba_cert_release (cert); if (rc != -1 || !depth || depth == DIM(array) ) { /* We did not reached the root. */ goto leave; } /* If this is a German signature law issued certificate, we store additional information. */ if (!gpgsm_is_in_qualified_list (NULL, array[depth-1], country) && !strcmp (country, "de")) { /* Setting the pathlen for the root CA and the CA flag for the next one is all what we need to do. */ err = ksba_cert_set_user_data (array[depth-1], "regtp_ca_chainlen", "\x01\x01", 2); if (!err && depth > 1) err = ksba_cert_set_user_data (array[depth-2], "regtp_ca_chainlen", "\x01\x00", 2); if (err) log_error ("ksba_set_user_data(%s) failed: %s\n", "regtp_ca_chainlen", gpg_strerror (err)); for (i=0; i < depth; i++) ksba_cert_release (array[i]); *chainlen = (depth>1? 0:1); return 1; } leave: /* Nothing special with this certificate. Mark the target certificate anyway to avoid duplicate lookups. */ err = ksba_cert_set_user_data (cert, "regtp_ca_chainlen", "", 1); if (err) log_error ("ksba_set_user_data(%s) failed: %s\n", "regtp_ca_chainlen", gpg_strerror (err)); for (i=0; i < depth; i++) ksba_cert_release (array[i]); return 0; } diff --git a/sm/certlist.c b/sm/certlist.c index 94f85d2b2..52bf239cc 100644 --- a/sm/certlist.c +++ b/sm/certlist.c @@ -1,631 +1,633 @@ /* certlist.c - build list of certificates * Copyright (C) 2001, 2003, 2004, 2005, 2007, * 2008, 2011 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 #include #include "gpgsm.h" #include #include #include "keydb.h" #include "../common/i18n.h" /* Mode values for cert_usage_p. * Take care: the values have a semantic. */ #define USE_MODE_SIGN 0 #define USE_MODE_ENCR 1 #define USE_MODE_VRFY 2 #define USE_MODE_DECR 3 #define USE_MODE_CERT 4 #define USE_MODE_OCSP 5 /* OIDs we use here. */ static const char oid_kp_serverAuth[] = "1.3.6.1.5.5.7.3.1"; static const char oid_kp_clientAuth[] = "1.3.6.1.5.5.7.3.2"; static const char oid_kp_codeSigning[] = "1.3.6.1.5.5.7.3.3"; static const char oid_kp_emailProtection[]= "1.3.6.1.5.5.7.3.4"; static const char oid_kp_timeStamping[] = "1.3.6.1.5.5.7.3.8"; static const char oid_kp_ocspSigning[] = "1.3.6.1.5.5.7.3.9"; /* Return 0 if the cert is usable for encryption. A MODE of 0 checks for signing a MODE of 1 checks for encryption, a MODE of 2 checks for verification and a MODE of 3 for decryption (just for debugging). MODE 4 is for certificate signing, MODE for COSP response signing. */ static int cert_usage_p (ksba_cert_t cert, int mode, int silent) { gpg_error_t err; unsigned int use; unsigned int encr_bits, sign_bits; char *extkeyusages; int have_ocsp_signing = 0; err = ksba_cert_get_ext_key_usages (cert, &extkeyusages); if (gpg_err_code (err) == GPG_ERR_NO_DATA) err = 0; /* no policy given */ if (!err) { unsigned int extusemask = ~0; /* Allow all. */ if (extkeyusages) { char *p, *pend; int any_critical = 0; extusemask = 0; p = extkeyusages; while (p && (pend=strchr (p, ':'))) { *pend++ = 0; /* Only care about critical flagged usages. */ if ( *pend == 'C' ) { any_critical = 1; if ( !strcmp (p, oid_kp_serverAuth)) extusemask |= (KSBA_KEYUSAGE_DIGITAL_SIGNATURE | KSBA_KEYUSAGE_KEY_ENCIPHERMENT | KSBA_KEYUSAGE_KEY_AGREEMENT); else if ( !strcmp (p, oid_kp_clientAuth)) extusemask |= (KSBA_KEYUSAGE_DIGITAL_SIGNATURE | KSBA_KEYUSAGE_KEY_AGREEMENT); else if ( !strcmp (p, oid_kp_codeSigning)) extusemask |= (KSBA_KEYUSAGE_DIGITAL_SIGNATURE); else if ( !strcmp (p, oid_kp_emailProtection)) extusemask |= (KSBA_KEYUSAGE_DIGITAL_SIGNATURE | KSBA_KEYUSAGE_NON_REPUDIATION | KSBA_KEYUSAGE_KEY_ENCIPHERMENT | KSBA_KEYUSAGE_KEY_AGREEMENT); else if ( !strcmp (p, oid_kp_timeStamping)) extusemask |= (KSBA_KEYUSAGE_DIGITAL_SIGNATURE | KSBA_KEYUSAGE_NON_REPUDIATION); } /* This is a hack to cope with OCSP. Note that we do not yet fully comply with the requirements and that the entire CRL/OCSP checking thing should undergo a thorough review and probably redesign. */ if ( !strcmp (p, oid_kp_ocspSigning)) have_ocsp_signing = 1; if ((p = strchr (pend, '\n'))) p++; } xfree (extkeyusages); extkeyusages = NULL; if (!any_critical) extusemask = ~0; /* Reset to the don't care mask. */ } err = ksba_cert_get_key_usage (cert, &use); if (gpg_err_code (err) == GPG_ERR_NO_DATA) { err = 0; if (opt.verbose && mode < USE_MODE_VRFY && !silent) log_info (_("no key usage specified - assuming all usages\n")); use = ~0; } /* Apply extKeyUsage. */ use &= extusemask; } if (err) { log_error (_("error getting key usage information: %s\n"), gpg_strerror (err)); xfree (extkeyusages); return err; } if (mode == USE_MODE_CERT) { if ((use & (KSBA_KEYUSAGE_KEY_CERT_SIGN))) return 0; if (!silent) log_info (_("certificate should not have " "been used for certification\n")); return gpg_error (GPG_ERR_WRONG_KEY_USAGE); } if (mode == USE_MODE_OCSP) { if (use != ~0 && (have_ocsp_signing || (use & (KSBA_KEYUSAGE_KEY_CERT_SIGN |KSBA_KEYUSAGE_CRL_SIGN)))) return 0; if (!silent) log_info (_("certificate should not have " "been used for OCSP response signing\n")); return gpg_error (GPG_ERR_WRONG_KEY_USAGE); } encr_bits = (KSBA_KEYUSAGE_KEY_ENCIPHERMENT|KSBA_KEYUSAGE_DATA_ENCIPHERMENT); if ((opt.compat_flags & COMPAT_ALLOW_KA_TO_ENCR) || gpgsm_is_ecc_key (cert)) encr_bits |= KSBA_KEYUSAGE_KEY_AGREEMENT; sign_bits = (KSBA_KEYUSAGE_DIGITAL_SIGNATURE|KSBA_KEYUSAGE_NON_REPUDIATION); if ((use & ((mode&1)? encr_bits : sign_bits))) return 0; if (!silent) log_info (mode == USE_MODE_DECR? _("certificate should not have been used for encryption\n") : mode == USE_MODE_VRFY? _("certificate should not have been used for signing\n") : mode == USE_MODE_ENCR? _("certificate is not usable for encryption\n") : _("certificate is not usable for signing\n")); return gpg_error (GPG_ERR_WRONG_KEY_USAGE); } /* Return 0 if the cert is usable for signing */ int gpgsm_cert_use_sign_p (ksba_cert_t cert, int silent) { return cert_usage_p (cert, USE_MODE_SIGN, silent); } /* Return 0 if the cert is usable for encryption */ int gpgsm_cert_use_encrypt_p (ksba_cert_t cert) { return cert_usage_p (cert, USE_MODE_ENCR, 0); } int gpgsm_cert_use_verify_p (ksba_cert_t cert) { return cert_usage_p (cert, USE_MODE_VRFY, 0); } int gpgsm_cert_use_decrypt_p (ksba_cert_t cert) { return cert_usage_p (cert, USE_MODE_DECR, 0); } int gpgsm_cert_use_cert_p (ksba_cert_t cert) { return cert_usage_p (cert, USE_MODE_CERT, 0); } int gpgsm_cert_use_ocsp_p (ksba_cert_t cert) { return cert_usage_p (cert, USE_MODE_OCSP, 0); } /* Return true if CERT has the well known private key extension. */ int gpgsm_cert_has_well_known_private_key (ksba_cert_t cert) { int idx; const char *oid; for (idx=0; !ksba_cert_get_extension (cert, idx, &oid, NULL, NULL, NULL);idx++) if (!strcmp (oid, "1.3.6.1.4.1.11591.2.2.2") ) return 1; /* Yes. */ return 0; /* No. */ } static int same_subject_issuer (const char *subject, const char *issuer, ksba_cert_t cert) { char *subject2 = ksba_cert_get_subject (cert, 0); char *issuer2 = ksba_cert_get_issuer (cert, 0); int tmp; tmp = (subject && subject2 && !strcmp (subject, subject2) && issuer && issuer2 && !strcmp (issuer, issuer2)); xfree (subject2); xfree (issuer2); return tmp; } /* Return true if CERT_A is the same as CERT_B. */ int gpgsm_certs_identical_p (ksba_cert_t cert_a, ksba_cert_t cert_b) { const unsigned char *img_a, *img_b; size_t len_a, len_b; img_a = ksba_cert_get_image (cert_a, &len_a); if (img_a) { img_b = ksba_cert_get_image (cert_b, &len_b); if (img_b && len_a == len_b && !memcmp (img_a, img_b, len_a)) return 1; /* Identical. */ } return 0; } /* Return true if CERT is already contained in CERTLIST. */ static int is_cert_in_certlist (ksba_cert_t cert, certlist_t certlist) { const unsigned char *img_a, *img_b; size_t len_a, len_b; img_a = ksba_cert_get_image (cert, &len_a); if (img_a) { for ( ; certlist; certlist = certlist->next) { img_b = ksba_cert_get_image (certlist->cert, &len_b); if (img_b && len_a == len_b && !memcmp (img_a, img_b, len_a)) return 1; /* Already contained. */ } } return 0; } /* Add CERT to the list of certificates at CERTADDR but avoid duplicates. */ int gpgsm_add_cert_to_certlist (ctrl_t ctrl, ksba_cert_t cert, certlist_t *listaddr, int is_encrypt_to) { (void)ctrl; if (!is_cert_in_certlist (cert, *listaddr)) { certlist_t cl = xtrycalloc (1, sizeof *cl); if (!cl) return out_of_core (); cl->cert = cert; ksba_cert_ref (cert); cl->next = *listaddr; cl->is_encrypt_to = is_encrypt_to; *listaddr = cl; } return 0; } /* Add a certificate to a list of certificate and make sure that it is a valid certificate. With SECRET set to true a secret key must be available for the certificate. IS_ENCRYPT_TO sets the corresponding flag in the new create LISTADDR item. */ int gpgsm_add_to_certlist (ctrl_t ctrl, const char *name, int secret, certlist_t *listaddr, int is_encrypt_to) { int rc; KEYDB_SEARCH_DESC desc; KEYDB_HANDLE kh = NULL; ksba_cert_t cert = NULL; rc = classify_user_id (name, &desc, 0); if (!rc) { kh = keydb_new (); if (!kh) rc = gpg_error (GPG_ERR_ENOMEM); else { int wrong_usage = 0; char *first_subject = NULL; char *first_issuer = NULL; get_next: rc = keydb_search (ctrl, kh, &desc, 1); if (!rc) rc = keydb_get_cert (kh, &cert); if (!rc) { if (!first_subject) { /* Save the subject and the issuer for key usage and ambiguous name tests. */ first_subject = ksba_cert_get_subject (cert, 0); first_issuer = ksba_cert_get_issuer (cert, 0); } rc = secret? gpgsm_cert_use_sign_p (cert, 0) : gpgsm_cert_use_encrypt_p (cert); if (gpg_err_code (rc) == GPG_ERR_WRONG_KEY_USAGE) { /* There might be another certificate with the correct usage, so we try again */ if (!wrong_usage) { /* save the first match */ wrong_usage = rc; ksba_cert_release (cert); cert = NULL; goto get_next; } else if (same_subject_issuer (first_subject, first_issuer, cert)) { wrong_usage = rc; ksba_cert_release (cert); cert = NULL; goto get_next; } else wrong_usage = rc; } } /* We want the error code from the first match in this case. */ if (rc && wrong_usage) rc = wrong_usage; if (!rc) { certlist_t dup_certs = NULL; next_ambigious: rc = keydb_search (ctrl, kh, &desc, 1); - if (rc == -1) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = 0; else if (!rc) { ksba_cert_t cert2 = NULL; /* If this is the first possible duplicate, add the original certificate to our list of duplicates. */ if (!dup_certs) gpgsm_add_cert_to_certlist (ctrl, cert, &dup_certs, 0); /* We have to ignore ambiguous names as long as there only fault is a bad key usage. This is required to support encryption and signing certificates of the same subject. Further we ignore them if they are due to an identical certificate (which may happen if a certificate is accidential duplicated in the keybox). */ if (!keydb_get_cert (kh, &cert2)) { int tmp = (same_subject_issuer (first_subject, first_issuer, cert2) && ((gpg_err_code ( secret? gpgsm_cert_use_sign_p (cert2,0) : gpgsm_cert_use_encrypt_p (cert2) ) ) == GPG_ERR_WRONG_KEY_USAGE)); if (tmp) gpgsm_add_cert_to_certlist (ctrl, cert2, &dup_certs, 0); else { if (is_cert_in_certlist (cert2, dup_certs)) tmp = 1; } ksba_cert_release (cert2); if (tmp) goto next_ambigious; } rc = gpg_error (GPG_ERR_AMBIGUOUS_NAME); } gpgsm_release_certlist (dup_certs); } xfree (first_subject); xfree (first_issuer); first_subject = NULL; first_issuer = NULL; if (!rc && !is_cert_in_certlist (cert, *listaddr)) { if (!rc && secret) { char *p; rc = gpg_error (GPG_ERR_NO_SECKEY); p = gpgsm_get_keygrip_hexstring (cert); if (p) { if (!gpgsm_agent_havekey (ctrl, p)) rc = 0; xfree (p); } } if (!rc) rc = gpgsm_validate_chain (ctrl, cert, "", NULL, 0, NULL, 0, NULL); if (!rc) { certlist_t cl = xtrycalloc (1, sizeof *cl); if (!cl) rc = out_of_core (); else { cl->cert = cert; cert = NULL; cl->next = *listaddr; cl->is_encrypt_to = is_encrypt_to; *listaddr = cl; } } } } } keydb_release (kh); ksba_cert_release (cert); - return rc == -1? gpg_error (GPG_ERR_NO_PUBKEY): rc; + return (gpg_err_code (rc) == GPG_ERR_NOT_FOUND + ? gpg_error (GPG_ERR_NO_PUBKEY): rc); } void gpgsm_release_certlist (certlist_t list) { while (list) { certlist_t cl = list->next; ksba_cert_release (list->cert); xfree (list); list = cl; } } /* Like gpgsm_add_to_certlist, but look only for one certificate. No chain validation is done. If KEYID is not NULL it is taken as an additional filter value which must match the subjectKeyIdentifier. */ int gpgsm_find_cert (ctrl_t ctrl, const char *name, ksba_sexp_t keyid, ksba_cert_t *r_cert, int allow_ambiguous) { int rc; KEYDB_SEARCH_DESC desc; KEYDB_HANDLE kh = NULL; *r_cert = NULL; rc = classify_user_id (name, &desc, 0); if (!rc) { kh = keydb_new (); if (!kh) rc = gpg_error (GPG_ERR_ENOMEM); else { nextone: rc = keydb_search (ctrl, kh, &desc, 1); if (!rc) { rc = keydb_get_cert (kh, r_cert); if (!rc && keyid) { ksba_sexp_t subj; rc = ksba_cert_get_subj_key_id (*r_cert, NULL, &subj); if (!rc) { if (cmp_simple_canon_sexp (keyid, subj)) { xfree (subj); goto nextone; } xfree (subj); /* Okay: Here we know that the certificate's subjectKeyIdentifier matches the requested one. */ } else if (gpg_err_code (rc) == GPG_ERR_NO_DATA) goto nextone; } } /* If we don't have the KEYID filter we need to check for ambiguous search results. Note, that it is somehwat reasonable to assume that a specification of a KEYID won't lead to ambiguous names. */ if (!rc && !keyid) { ksba_isotime_t notbefore = ""; const unsigned char *image = NULL; size_t length = 0; if (allow_ambiguous) { /* We want to return the newest certificate */ if (ksba_cert_get_validity (*r_cert, 0, notbefore)) *notbefore = '\0'; image = ksba_cert_get_image (*r_cert, &length); } next_ambiguous: rc = keydb_search (ctrl, kh, &desc, 1); - if (rc == -1) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = 0; else { if (!rc) { ksba_cert_t cert2 = NULL; ksba_isotime_t notbefore2 = ""; const unsigned char *image2 = NULL; size_t length2 = 0; int cmp = 0; if (!keydb_get_cert (kh, &cert2)) { if (gpgsm_certs_identical_p (*r_cert, cert2)) { ksba_cert_release (cert2); goto next_ambiguous; } if (allow_ambiguous) { if (ksba_cert_get_validity (cert2, 0, notbefore2)) *notbefore2 = '\0'; image2 = ksba_cert_get_image (cert2, &length2); cmp = strcmp (notbefore, notbefore2); /* use certificate image bits as last resort for stable ordering */ if (!cmp) cmp = memcmp (image, image2, length < length2 ? length : length2); if (!cmp) cmp = length < length2 ? -1 : length > length2 ? 1 : 0; if (cmp < 0) { ksba_cert_release (*r_cert); *r_cert = cert2; strcpy (notbefore, notbefore2); image = image2; length = length2; } else ksba_cert_release (cert2); goto next_ambiguous; } ksba_cert_release (cert2); } rc = gpg_error (GPG_ERR_AMBIGUOUS_NAME); } ksba_cert_release (*r_cert); *r_cert = NULL; } } } } keydb_release (kh); - return rc == -1? gpg_error (GPG_ERR_NO_PUBKEY): rc; + return (gpg_err_code (rc) == GPG_ERR_NOT_FOUND? + gpg_error (GPG_ERR_NO_PUBKEY): rc); } diff --git a/sm/delete.c b/sm/delete.c index 56d5b1f8c..b68a084f0 100644 --- a/sm/delete.c +++ b/sm/delete.c @@ -1,182 +1,182 @@ /* delete.c - Delete certificates from the keybox. * Copyright (C) 2002, 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 #include #include #include #include "gpgsm.h" #include #include #include "keydb.h" #include "../common/i18n.h" /* Delete a certificate or an secret key from a key database. */ static int delete_one (ctrl_t ctrl, const char *username) { int rc = 0; KEYDB_SEARCH_DESC desc; KEYDB_HANDLE kh = NULL; ksba_cert_t cert = NULL; int duplicates = 0; int is_ephem = 0; rc = classify_user_id (username, &desc, 0); if (rc) { log_error (_("certificate '%s' not found: %s\n"), username, gpg_strerror (rc)); gpgsm_status2 (ctrl, STATUS_DELETE_PROBLEM, "1", NULL); goto leave; } kh = keydb_new (); if (!kh) { log_error ("keydb_new failed\n"); goto leave; } /* If the key is specified in a unique way, include ephemeral keys in the search. */ if ( desc.mode == KEYDB_SEARCH_MODE_FPR || desc.mode == KEYDB_SEARCH_MODE_FPR20 || desc.mode == KEYDB_SEARCH_MODE_FPR16 || desc.mode == KEYDB_SEARCH_MODE_KEYGRIP ) { is_ephem = 1; keydb_set_ephemeral (kh, 1); } rc = keydb_search (ctrl, kh, &desc, 1); if (!rc) rc = keydb_get_cert (kh, &cert); if (!rc && !is_ephem) { unsigned char fpr[20]; gpgsm_get_fingerprint (cert, 0, fpr, NULL); next_ambigious: rc = keydb_search (ctrl, kh, &desc, 1); - if (rc == -1) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = 0; else if (!rc) { ksba_cert_t cert2 = NULL; unsigned char fpr2[20]; /* We ignore all duplicated certificates which might have been inserted due to program bugs. */ if (!keydb_get_cert (kh, &cert2)) { gpgsm_get_fingerprint (cert2, 0, fpr2, NULL); ksba_cert_release (cert2); if (!memcmp (fpr, fpr2, 20)) { duplicates++; goto next_ambigious; } } rc = gpg_error (GPG_ERR_AMBIGUOUS_NAME); } } if (rc) { - if (rc == -1) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = gpg_error (GPG_ERR_NO_PUBKEY); log_error (_("certificate '%s' not found: %s\n"), username, gpg_strerror (rc)); gpgsm_status2 (ctrl, STATUS_DELETE_PROBLEM, "3", NULL); goto leave; } /* We need to search again to get back to the right position. */ rc = keydb_lock (kh); if (rc) { log_error (_("error locking keybox: %s\n"), gpg_strerror (rc)); goto leave; } do { keydb_search_reset (kh); rc = keydb_search (ctrl, kh, &desc, 1); if (rc) { log_error ("problem re-searching certificate: %s\n", gpg_strerror (rc)); goto leave; } rc = keydb_delete (kh, duplicates ? 0 : 1); if (rc) goto leave; if (opt.verbose) { if (duplicates) log_info (_("duplicated certificate '%s' deleted\n"), username); else log_info (_("certificate '%s' deleted\n"), username); } } while (duplicates--); leave: keydb_release (kh); ksba_cert_release (cert); return rc; } /* Delete the certificates specified by NAMES. */ int gpgsm_delete (ctrl_t ctrl, strlist_t names) { int rc; if (!names) { log_error ("nothing to delete\n"); return gpg_error (GPG_ERR_NO_DATA); } for (; names; names=names->next ) { rc = delete_one (ctrl, names->d); if (rc) { log_error (_("deleting certificate \"%s\" failed: %s\n"), names->d, gpg_strerror (rc) ); return rc; } } return 0; } diff --git a/sm/export.c b/sm/export.c index 3da06d7cf..dcfdab42f 100644 --- a/sm/export.c +++ b/sm/export.c @@ -1,756 +1,756 @@ /* export.c - Export certificates and private keys. * Copyright (C) 2002, 2003, 2004, 2007, 2009, * 2010 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 #include "gpgsm.h" #include #include #include "keydb.h" #include "../common/exechelp.h" #include "../common/i18n.h" #include "../common/sysutils.h" #include "minip12.h" /* A table to store a fingerprint as used in a duplicates table. We don't need to hash here because a fingerprint is already a perfect hash value. This we use the most significant bits to index the table and then use a linked list for the overflow. Possible enhancement for very large number of certificates: Add a second level table and then resort to a linked list. */ struct duptable_s { struct duptable_s *next; /* Note that we only need to store 19 bytes because the first byte is implictly given by the table index (we require at least 8 bits). */ unsigned char fpr[19]; }; typedef struct duptable_s *duptable_t; #define DUPTABLE_BITS 12 #define DUPTABLE_SIZE (1 << DUPTABLE_BITS) static void print_short_info (ksba_cert_t cert, estream_t stream); static gpg_error_t export_p12 (ctrl_t ctrl, const unsigned char *certimg, size_t certimglen, const char *prompt, const char *keygrip, int rawmode, void **r_result, size_t *r_resultlen); /* Create a table used to indetify duplicated certificates. */ static duptable_t * create_duptable (void) { return xtrycalloc (DUPTABLE_SIZE, sizeof (duptable_t)); } static void destroy_duptable (duptable_t *table) { int idx; duptable_t t, t2; if (table) { for (idx=0; idx < DUPTABLE_SIZE; idx++) for (t = table[idx]; t; t = t2) { t2 = t->next; xfree (t); } xfree (table); } } /* Insert the 20 byte fingerprint FPR into TABLE. Sets EXITS to true if the fingerprint already exists in the table. */ static gpg_error_t insert_duptable (duptable_t *table, unsigned char *fpr, int *exists) { size_t idx; duptable_t t; *exists = 0; idx = fpr[0]; #if DUPTABLE_BITS > 16 || DUPTABLE_BITS < 8 #error cannot handle a table larger than 16 bits or smaller than 8 bits #elif DUPTABLE_BITS > 8 idx <<= (DUPTABLE_BITS - 8); idx |= (fpr[1] & ~(~0U << 4)); #endif for (t = table[idx]; t; t = t->next) if (!memcmp (t->fpr, fpr+1, 19)) break; if (t) { *exists = 1; return 0; } /* Insert that fingerprint. */ t = xtrymalloc (sizeof *t); if (!t) return gpg_error_from_syserror (); memcpy (t->fpr, fpr+1, 19); t->next = table[idx]; table[idx] = t; return 0; } /* Export all certificates or just those given in NAMES. The output is written to STREAM. */ void gpgsm_export (ctrl_t ctrl, strlist_t names, estream_t stream) { KEYDB_HANDLE hd = NULL; KEYDB_SEARCH_DESC *desc = NULL; int ndesc; gnupg_ksba_io_t b64writer = NULL; ksba_writer_t writer; strlist_t sl; ksba_cert_t cert = NULL; int rc=0; int count = 0; int i; duptable_t *dtable; dtable = create_duptable (); if (!dtable) { log_error ("creating duplicates table failed: %s\n", strerror (errno)); goto leave; } hd = keydb_new (); if (!hd) { log_error ("keydb_new failed\n"); goto leave; } if (!names) ndesc = 1; else { for (sl=names, ndesc=0; sl; sl = sl->next, ndesc++) ; } desc = xtrycalloc (ndesc, sizeof *desc); if (!ndesc) { log_error ("allocating memory for export failed: %s\n", gpg_strerror (out_of_core ())); goto leave; } if (!names) desc[0].mode = KEYDB_SEARCH_MODE_FIRST; else { for (ndesc=0, sl=names; sl; sl = sl->next) { rc = classify_user_id (sl->d, desc+ndesc, 0); if (rc) { log_error ("key '%s' not found: %s\n", sl->d, gpg_strerror (rc)); rc = 0; } else ndesc++; } } /* If all specifications are done by fingerprint or keygrip, we switch to ephemeral mode so that _all_ currently available and matching certificates are exported. */ if (names && ndesc) { for (i=0; (i < ndesc && (desc[i].mode == KEYDB_SEARCH_MODE_FPR || desc[i].mode == KEYDB_SEARCH_MODE_FPR20 || desc[i].mode == KEYDB_SEARCH_MODE_FPR16 || desc[i].mode == KEYDB_SEARCH_MODE_KEYGRIP)); i++) ; if (i == ndesc) keydb_set_ephemeral (hd, 1); } while (!(rc = keydb_search (ctrl, hd, desc, ndesc))) { unsigned char fpr[20]; int exists; if (!names) desc[0].mode = KEYDB_SEARCH_MODE_NEXT; rc = keydb_get_cert (hd, &cert); if (rc) { log_error ("keydb_get_cert failed: %s\n", gpg_strerror (rc)); goto leave; } gpgsm_get_fingerprint (cert, 0, fpr, NULL); rc = insert_duptable (dtable, fpr, &exists); if (rc) { log_error ("inserting into duplicates table failed: %s\n", gpg_strerror (rc)); goto leave; } if (!exists && count && !ctrl->create_pem) { log_info ("exporting more than one certificate " "is not possible in binary mode\n"); log_info ("ignoring other certificates\n"); break; } if (!exists) { const unsigned char *image; size_t imagelen; image = ksba_cert_get_image (cert, &imagelen); if (!image) { log_error ("ksba_cert_get_image failed\n"); goto leave; } if (ctrl->create_pem) { if (count) es_putc ('\n', stream); print_short_info (cert, stream); es_putc ('\n', stream); } count++; if (!b64writer) { ctrl->pem_name = "CERTIFICATE"; rc = gnupg_ksba_create_writer (&b64writer, ((ctrl->create_pem? GNUPG_KSBA_IO_PEM : 0) | (ctrl->create_base64? GNUPG_KSBA_IO_BASE64 :0)), ctrl->pem_name, stream, &writer); if (rc) { log_error ("can't create writer: %s\n", gpg_strerror (rc)); goto leave; } } rc = ksba_writer_write (writer, image, imagelen); if (rc) { log_error ("write error: %s\n", gpg_strerror (rc)); goto leave; } if (ctrl->create_pem) { /* We want one certificate per PEM block */ rc = gnupg_ksba_finish_writer (b64writer); if (rc) { log_error ("write failed: %s\n", gpg_strerror (rc)); goto leave; } gnupg_ksba_destroy_writer (b64writer); b64writer = NULL; } } ksba_cert_release (cert); cert = NULL; } - if (rc && rc != -1) + if (rc && gpg_err_code (rc) != GPG_ERR_NOT_FOUND) log_error ("keydb_search failed: %s\n", gpg_strerror (rc)); else if (b64writer) { rc = gnupg_ksba_finish_writer (b64writer); if (rc) { log_error ("write failed: %s\n", gpg_strerror (rc)); goto leave; } } leave: gnupg_ksba_destroy_writer (b64writer); ksba_cert_release (cert); xfree (desc); keydb_release (hd); destroy_duptable (dtable); } /* Export a certificate and its private key. RAWMODE controls the actual output: 0 - Private key and certifciate in PKCS#12 format 1 - Only unencrypted private key in PKCS#8 format 2 - Only unencrypted private key in PKCS#1 format */ void gpgsm_p12_export (ctrl_t ctrl, const char *name, estream_t stream, int rawmode) { gpg_error_t err = 0; KEYDB_HANDLE hd; KEYDB_SEARCH_DESC *desc = NULL; gnupg_ksba_io_t b64writer = NULL; ksba_writer_t writer; ksba_cert_t cert = NULL; const unsigned char *image; size_t imagelen; char *keygrip = NULL; char *prompt; void *data; size_t datalen; hd = keydb_new (); if (!hd) { log_error ("keydb_new failed\n"); goto leave; } desc = xtrycalloc (1, sizeof *desc); if (!desc) { log_error ("allocating memory for export failed: %s\n", gpg_strerror (out_of_core ())); goto leave; } err = classify_user_id (name, desc, 0); if (err) { log_error ("key '%s' not found: %s\n", name, gpg_strerror (err)); goto leave; } /* Lookup the certificate and make sure that it is unique. */ err = keydb_search (ctrl, hd, desc, 1); if (!err) { err = keydb_get_cert (hd, &cert); if (err) { log_error ("keydb_get_cert failed: %s\n", gpg_strerror (err)); goto leave; } next_ambiguous: err = keydb_search (ctrl, hd, desc, 1); if (!err) { ksba_cert_t cert2 = NULL; if (!keydb_get_cert (hd, &cert2)) { if (gpgsm_certs_identical_p (cert, cert2)) { ksba_cert_release (cert2); goto next_ambiguous; } ksba_cert_release (cert2); } err = gpg_error (GPG_ERR_AMBIGUOUS_NAME); } - else if (err == -1 || gpg_err_code (err) == GPG_ERR_EOF) + else if (gpg_err_code (err) == GPG_ERR_NOT_FOUND) err = 0; if (err) { log_error ("key '%s' not found: %s\n", name, gpg_strerror (err)); goto leave; } } keygrip = gpgsm_get_keygrip_hexstring (cert); if (!keygrip || gpgsm_agent_havekey (ctrl, keygrip)) { /* Note, that the !keygrip case indicates a bad certificate. */ err = gpg_error (GPG_ERR_NO_SECKEY); log_error ("can't export key '%s': %s\n", name, gpg_strerror (err)); goto leave; } image = ksba_cert_get_image (cert, &imagelen); if (!image) { log_error ("ksba_cert_get_image failed\n"); goto leave; } if (ctrl->create_pem) { print_short_info (cert, stream); es_putc ('\n', stream); } if (opt.p12_charset && ctrl->create_pem && !rawmode) { es_fprintf (stream, "The passphrase is %s encoded.\n\n", opt.p12_charset); } if (rawmode == 0) ctrl->pem_name = "PKCS12"; else if (rawmode == 1) ctrl->pem_name = "PRIVATE KEY"; else ctrl->pem_name = "RSA PRIVATE KEY"; err = gnupg_ksba_create_writer (&b64writer, ((ctrl->create_pem? GNUPG_KSBA_IO_PEM : 0) | (ctrl->create_base64? GNUPG_KSBA_IO_BASE64 : 0)), ctrl->pem_name, stream, &writer); if (err) { log_error ("can't create writer: %s\n", gpg_strerror (err)); goto leave; } prompt = gpgsm_format_keydesc (cert); err = export_p12 (ctrl, image, imagelen, prompt, keygrip, rawmode, &data, &datalen); xfree (prompt); if (err) goto leave; err = ksba_writer_write (writer, data, datalen); xfree (data); if (err) { log_error ("write failed: %s\n", gpg_strerror (err)); goto leave; } if (ctrl->create_pem) { /* We want one certificate per PEM block */ err = gnupg_ksba_finish_writer (b64writer); if (err) { log_error ("write failed: %s\n", gpg_strerror (err)); goto leave; } gnupg_ksba_destroy_writer (b64writer); b64writer = NULL; } ksba_cert_release (cert); cert = NULL; leave: gnupg_ksba_destroy_writer (b64writer); ksba_cert_release (cert); xfree (keygrip); xfree (desc); keydb_release (hd); } /* Print some info about the certifciate CERT to FP or STREAM */ static void print_short_info (ksba_cert_t cert, estream_t stream) { char *p; ksba_sexp_t sexp; int idx; for (idx=0; (p = ksba_cert_get_issuer (cert, idx)); idx++) { es_fputs ((!idx ? "Issuer ...: " : "\n aka ...: "), stream); gpgsm_es_print_name (stream, p); xfree (p); } es_putc ('\n', stream); es_fputs ("Serial ...: ", stream); sexp = ksba_cert_get_serial (cert); if (sexp) { int len; const unsigned char *s = sexp; if (*s == '(') { s++; for (len=0; *s && *s != ':' && digitp (s); s++) len = len*10 + atoi_1 (s); if (*s == ':') es_write_hexstring (stream, s+1, len, 0, NULL); } xfree (sexp); } es_putc ('\n', stream); for (idx=0; (p = ksba_cert_get_subject (cert, idx)); idx++) { es_fputs ((!idx ? "Subject ..: " : "\n aka ..: "), stream); gpgsm_es_print_name (stream, p); xfree (p); } es_putc ('\n', stream); p = gpgsm_get_keygrip_hexstring (cert); if (p) { es_fprintf (stream, "Keygrip ..: %s\n", p); xfree (p); } } /* Parse a private key S-expression and return a malloced array with the RSA parameters in pkcs#12 order. The caller needs to deep-release this array. */ static gcry_mpi_t * sexp_to_kparms (gcry_sexp_t sexp) { gcry_sexp_t list, l2; const char *name; const char *s; size_t n; int idx; const char *elems; gcry_mpi_t *array; list = gcry_sexp_find_token (sexp, "private-key", 0 ); if(!list) return NULL; l2 = gcry_sexp_cadr (list); gcry_sexp_release (list); list = l2; name = gcry_sexp_nth_data (list, 0, &n); if(!name || n != 3 || memcmp (name, "rsa", 3)) { gcry_sexp_release (list); return NULL; } /* Parameter names used with RSA in the pkcs#12 order. */ elems = "nedqp--u"; array = xtrycalloc (strlen(elems) + 1, sizeof *array); if (!array) { gcry_sexp_release (list); return NULL; } for (idx=0, s=elems; *s; s++, idx++ ) { if (*s == '-') continue; /* Computed below */ l2 = gcry_sexp_find_token (list, s, 1); if (l2) { array[idx] = gcry_sexp_nth_mpi (l2, 1, GCRYMPI_FMT_USG); gcry_sexp_release (l2); } if (!array[idx]) /* Required parameter not found or invalid. */ { for (idx=0; array[idx]; idx++) gcry_mpi_release (array[idx]); xfree (array); gcry_sexp_release (list); return NULL; } } gcry_sexp_release (list); array[5] = gcry_mpi_snew (0); /* compute d mod (q-1) */ gcry_mpi_sub_ui (array[5], array[3], 1); gcry_mpi_mod (array[5], array[2], array[5]); array[6] = gcry_mpi_snew (0); /* compute d mod (p-1) */ gcry_mpi_sub_ui (array[6], array[4], 1); gcry_mpi_mod (array[6], array[2], array[6]); return array; } static gpg_error_t export_p12 (ctrl_t ctrl, const unsigned char *certimg, size_t certimglen, const char *prompt, const char *keygrip, int rawmode, void **r_result, size_t *r_resultlen) { gpg_error_t err = 0; void *kek = NULL; size_t keklen; unsigned char *wrappedkey = NULL; size_t wrappedkeylen; gcry_cipher_hd_t cipherhd = NULL; gcry_sexp_t s_skey = NULL; gcry_mpi_t *kparms = NULL; unsigned char *key = NULL; size_t keylen; char *passphrase = NULL; unsigned char *result = NULL; size_t resultlen; int i; *r_result = NULL; /* Get the current KEK. */ err = gpgsm_agent_keywrap_key (ctrl, 1, &kek, &keklen); if (err) { log_error ("error getting the KEK: %s\n", gpg_strerror (err)); goto leave; } /* Receive the wrapped key from the agent. */ err = gpgsm_agent_export_key (ctrl, keygrip, prompt, &wrappedkey, &wrappedkeylen); if (err) goto leave; /* Unwrap the key. */ err = gcry_cipher_open (&cipherhd, GCRY_CIPHER_AES128, GCRY_CIPHER_MODE_AESWRAP, 0); if (err) goto leave; err = gcry_cipher_setkey (cipherhd, kek, keklen); if (err) goto leave; xfree (kek); kek = NULL; if (wrappedkeylen < 24) { err = gpg_error (GPG_ERR_INV_LENGTH); goto leave; } keylen = wrappedkeylen - 8; key = xtrymalloc_secure (keylen); if (!key) { err = gpg_error_from_syserror (); goto leave; } err = gcry_cipher_decrypt (cipherhd, key, keylen, wrappedkey, wrappedkeylen); if (err) goto leave; xfree (wrappedkey); wrappedkey = NULL; gcry_cipher_close (cipherhd); cipherhd = NULL; /* Convert to a gcrypt S-expression. */ err = gcry_sexp_create (&s_skey, key, keylen, 0, xfree_fnc); if (err) goto leave; key = NULL; /* Key is now owned by S_KEY. */ /* Get the parameters from the S-expression. */ kparms = sexp_to_kparms (s_skey); gcry_sexp_release (s_skey); s_skey = NULL; if (!kparms) { log_error ("error converting key parameters\n"); err = GPG_ERR_BAD_SECKEY; goto leave; } if (rawmode) { /* Export in raw mode, that is only the pkcs#1/#8 private key. */ result = p12_raw_build (kparms, rawmode, &resultlen); if (!result) err = gpg_error (GPG_ERR_GENERAL); } else { err = gpgsm_agent_ask_passphrase (ctrl, i18n_utf8 (N_("Please enter the passphrase to protect the " "new PKCS#12 object.")), 1, &passphrase); if (err) goto leave; result = p12_build (kparms, certimg, certimglen, passphrase, opt.p12_charset, &resultlen); xfree (passphrase); passphrase = NULL; if (!result) err = gpg_error (GPG_ERR_GENERAL); } leave: xfree (key); gcry_sexp_release (s_skey); if (kparms) { for (i=0; kparms[i]; i++) gcry_mpi_release (kparms[i]); xfree (kparms); } gcry_cipher_close (cipherhd); xfree (wrappedkey); xfree (kek); if (gpg_err_code (err) == GPG_ERR_BAD_PASSPHRASE) { /* During export this is the passphrase used to unprotect the key and not the pkcs#12 thing as in export. Therefore we can issue the regular passphrase status. FIXME: replace the all zero keyid by a regular one. */ gpgsm_status (ctrl, STATUS_BAD_PASSPHRASE, "0000000000000000"); } if (err) { xfree (result); } else { *r_result = result; *r_resultlen = resultlen; } return err; } diff --git a/sm/import.c b/sm/import.c index 8a75a2b05..d4ff2c1c5 100644 --- a/sm/import.c +++ b/sm/import.c @@ -1,941 +1,941 @@ /* import.c - Import certificates * Copyright (C) 2001, 2003, 2004, 2009, 2010 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 #include #include "gpgsm.h" #include #include #include "keydb.h" #include "../common/exechelp.h" #include "../common/i18n.h" #include "../common/sysutils.h" #include "../kbx/keybox.h" /* for KEYBOX_FLAG_* */ #include "../common/membuf.h" #include "minip12.h" /* The arbitrary limit of one PKCS#12 object. */ #define MAX_P12OBJ_SIZE 128 /*kb*/ struct stats_s { unsigned long count; unsigned long imported; unsigned long unchanged; unsigned long not_imported; unsigned long secret_read; unsigned long secret_imported; unsigned long secret_dups; }; struct rsa_secret_key_s { gcry_mpi_t n; /* public modulus */ gcry_mpi_t e; /* public exponent */ gcry_mpi_t d; /* exponent */ gcry_mpi_t p; /* prime p. */ gcry_mpi_t q; /* prime q. */ gcry_mpi_t u; /* inverse of p mod q. */ }; static gpg_error_t parse_p12 (ctrl_t ctrl, ksba_reader_t reader, struct stats_s *stats); static void print_imported_status (ctrl_t ctrl, ksba_cert_t cert, int new_cert) { char *fpr; fpr = gpgsm_get_fingerprint_hexstring (cert, GCRY_MD_SHA1); if (new_cert) gpgsm_status2 (ctrl, STATUS_IMPORTED, fpr, "[X.509]", NULL); gpgsm_status2 (ctrl, STATUS_IMPORT_OK, new_cert? "1":"0", fpr, NULL); xfree (fpr); } /* Print an IMPORT_PROBLEM status. REASON is one of: 0 := "No specific reason given". 1 := "Invalid Certificate". 2 := "Issuer Certificate missing". 3 := "Certificate Chain too long". 4 := "Error storing certificate". */ static void print_import_problem (ctrl_t ctrl, ksba_cert_t cert, int reason) { char *fpr = NULL; char buf[25]; int i; sprintf (buf, "%d", reason); if (cert) { fpr = gpgsm_get_fingerprint_hexstring (cert, GCRY_MD_SHA1); /* detetect an error (all high) value */ for (i=0; fpr[i] == 'F'; i++) ; if (!fpr[i]) { xfree (fpr); fpr = NULL; } } gpgsm_status2 (ctrl, STATUS_IMPORT_PROBLEM, buf, fpr, NULL); xfree (fpr); } void print_imported_summary (ctrl_t ctrl, struct stats_s *stats) { char buf[14*25]; if (!opt.quiet) { log_info (_("total number processed: %lu\n"), stats->count); if (stats->imported) { log_info (_(" imported: %lu"), stats->imported ); log_printf ("\n"); } if (stats->unchanged) log_info (_(" unchanged: %lu\n"), stats->unchanged); if (stats->secret_read) log_info (_(" secret keys read: %lu\n"), stats->secret_read ); if (stats->secret_imported) log_info (_(" secret keys imported: %lu\n"), stats->secret_imported ); if (stats->secret_dups) log_info (_(" secret keys unchanged: %lu\n"), stats->secret_dups ); if (stats->not_imported) log_info (_(" not imported: %lu\n"), stats->not_imported); } sprintf(buf, "%lu %lu %lu %lu %lu %lu %lu %lu %lu %lu %lu %lu %lu %lu", stats->count, 0l /*stats->no_user_id*/, stats->imported, 0l /*stats->imported_rsa*/, stats->unchanged, 0l /*stats->n_uids*/, 0l /*stats->n_subk*/, 0l /*stats->n_sigs*/, 0l /*stats->n_revoc*/, stats->secret_read, stats->secret_imported, stats->secret_dups, 0l /*stats->skipped_new_keys*/, stats->not_imported ); gpgsm_status (ctrl, STATUS_IMPORT_RES, buf); } static void check_and_store (ctrl_t ctrl, struct stats_s *stats, ksba_cert_t cert, int depth) { int rc; if (stats) stats->count++; if ( depth >= 50 ) { log_error (_("certificate chain too long\n")); if (stats) stats->not_imported++; print_import_problem (ctrl, cert, 3); return; } /* Some basic checks, but don't care about missing certificates; this is so that we are able to import entire certificate chains w/o requiring a special order (i.e. root-CA first). This used to be different but because gpgsm_verify even imports certificates without any checks, it doesn't matter much and the code gets much cleaner. A housekeeping function to remove certificates w/o an anchor would be nice, though. Optionally we do a full validation in addition to the basic test. */ rc = gpgsm_basic_cert_check (ctrl, cert); if (!rc && ctrl->with_validation) rc = gpgsm_validate_chain (ctrl, cert, "", NULL, 0, NULL, 0, NULL); if (!rc || (!ctrl->with_validation && (gpg_err_code (rc) == GPG_ERR_MISSING_CERT || gpg_err_code (rc) == GPG_ERR_MISSING_ISSUER_CERT))) { int existed; if (!keydb_store_cert (ctrl, cert, 0, &existed)) { ksba_cert_t next = NULL; if (!existed) { print_imported_status (ctrl, cert, 1); if (stats) stats->imported++; } else { print_imported_status (ctrl, cert, 0); if (stats) stats->unchanged++; } if (opt.verbose > 1 && existed) { if (depth) log_info ("issuer certificate already in DB\n"); else log_info ("certificate already in DB\n"); } else if (opt.verbose && !existed) { if (depth) log_info ("issuer certificate imported\n"); else log_info ("certificate imported\n"); } /* Now lets walk up the chain and import all certificates up the chain. This is required in case we already stored parent certificates in the ephemeral keybox. Do not update the statistics, though. */ if (!gpgsm_walk_cert_chain (ctrl, cert, &next)) { check_and_store (ctrl, NULL, next, depth+1); ksba_cert_release (next); } } else { log_error (_("error storing certificate\n")); if (stats) stats->not_imported++; print_import_problem (ctrl, cert, 4); } } else { log_error (_("basic certificate checks failed - not imported\n")); if (stats) stats->not_imported++; /* We keep the test for GPG_ERR_MISSING_CERT only in case GPG_ERR_MISSING_CERT has been used instead of the newer GPG_ERR_MISSING_ISSUER_CERT. */ print_import_problem (ctrl, cert, gpg_err_code (rc) == GPG_ERR_MISSING_ISSUER_CERT? 2 : gpg_err_code (rc) == GPG_ERR_MISSING_CERT? 2 : gpg_err_code (rc) == GPG_ERR_BAD_CERT? 1 : 0); } } static int import_one (ctrl_t ctrl, struct stats_s *stats, int in_fd) { int rc; gnupg_ksba_io_t b64reader = NULL; ksba_reader_t reader; ksba_cert_t cert = NULL; ksba_cms_t cms = NULL; estream_t fp = NULL; ksba_content_type_t ct; int any = 0; fp = es_fdopen_nc (in_fd, "rb"); if (!fp) { rc = gpg_error_from_syserror (); log_error ("fdopen() failed: %s\n", strerror (errno)); goto leave; } rc = gnupg_ksba_create_reader (&b64reader, ((ctrl->is_pem? GNUPG_KSBA_IO_PEM : 0) | (ctrl->is_base64? GNUPG_KSBA_IO_BASE64 : 0) | (ctrl->autodetect_encoding? GNUPG_KSBA_IO_AUTODETECT : 0) | GNUPG_KSBA_IO_MULTIPEM), fp, &reader); if (rc) { log_error ("can't create reader: %s\n", gpg_strerror (rc)); goto leave; } /* We need to loop here to handle multiple PEM objects in one file. */ do { ksba_cms_release (cms); cms = NULL; ksba_cert_release (cert); cert = NULL; ct = ksba_cms_identify (reader); if (ct == KSBA_CT_SIGNED_DATA) { /* This is probably a signed-only message - import the certs */ ksba_stop_reason_t stopreason; int i; rc = ksba_cms_new (&cms); if (rc) goto leave; rc = ksba_cms_set_reader_writer (cms, reader, NULL); if (rc) { log_error ("ksba_cms_set_reader_writer failed: %s\n", gpg_strerror (rc)); goto leave; } do { rc = ksba_cms_parse (cms, &stopreason); if (rc) { log_error ("ksba_cms_parse failed: %s\n", gpg_strerror (rc)); goto leave; } if (stopreason == KSBA_SR_BEGIN_DATA) log_info ("not a certs-only message\n"); } while (stopreason != KSBA_SR_READY); for (i=0; (cert=ksba_cms_get_cert (cms, i)); i++) { check_and_store (ctrl, stats, cert, 0); ksba_cert_release (cert); cert = NULL; } if (!i) log_error ("no certificate found\n"); else any = 1; } else if (ct == KSBA_CT_PKCS12) { /* This seems to be a pkcs12 message. */ rc = parse_p12 (ctrl, reader, stats); if (!rc) any = 1; } else if (ct == KSBA_CT_NONE) { /* Failed to identify this message - assume a certificate */ rc = ksba_cert_new (&cert); if (rc) goto leave; rc = ksba_cert_read_der (cert, reader); if (rc) goto leave; check_and_store (ctrl, stats, cert, 0); any = 1; } else { log_error ("can't extract certificates from input\n"); rc = gpg_error (GPG_ERR_NO_DATA); } ksba_reader_clear (reader, NULL, NULL); } while (!gnupg_ksba_reader_eof_seen (b64reader)); leave: if (any && gpg_err_code (rc) == GPG_ERR_EOF) rc = 0; ksba_cms_release (cms); ksba_cert_release (cert); gnupg_ksba_destroy_reader (b64reader); es_fclose (fp); return rc; } /* Re-import certifciates. IN_FD is a list of linefeed delimited fingerprints t re-import. The actual re-import is done by clearing the ephemeral flag. */ static int reimport_one (ctrl_t ctrl, struct stats_s *stats, int in_fd) { gpg_error_t err = 0; estream_t fp = NULL; char line[100]; /* Sufficient for a fingerprint. */ KEYDB_HANDLE kh; KEYDB_SEARCH_DESC desc; ksba_cert_t cert = NULL; unsigned int flags; kh = keydb_new (); if (!kh) { err = gpg_error (GPG_ERR_ENOMEM);; log_error (_("failed to allocate keyDB handle\n")); goto leave; } keydb_set_ephemeral (kh, 1); fp = es_fdopen_nc (in_fd, "r"); if (!fp) { err = gpg_error_from_syserror (); log_error ("es_fdopen(%d) failed: %s\n", in_fd, gpg_strerror (err)); goto leave; } while (es_fgets (line, DIM(line)-1, fp) ) { if (*line && line[strlen(line)-1] != '\n') { err = gpg_error (GPG_ERR_LINE_TOO_LONG); goto leave; } trim_spaces (line); if (!*line) continue; stats->count++; err = classify_user_id (line, &desc, 0); if (err) { print_import_problem (ctrl, NULL, 0); stats->not_imported++; continue; } keydb_search_reset (kh); err = keydb_search (ctrl, kh, &desc, 1); if (err) { print_import_problem (ctrl, NULL, 0); stats->not_imported++; continue; } ksba_cert_release (cert); cert = NULL; err = keydb_get_cert (kh, &cert); if (err) { log_error ("keydb_get_cert() failed: %s\n", gpg_strerror (err)); print_import_problem (ctrl, NULL, 1); stats->not_imported++; continue; } err = keydb_get_flags (kh, KEYBOX_FLAG_BLOB, 0, &flags); if (err) { log_error (_("error getting stored flags: %s\n"), gpg_strerror (err)); print_imported_status (ctrl, cert, 0); stats->not_imported++; continue; } if ( !(flags & KEYBOX_FLAG_BLOB_EPHEMERAL) ) { print_imported_status (ctrl, cert, 0); stats->unchanged++; continue; } err = keydb_set_cert_flags (ctrl, cert, 1, KEYBOX_FLAG_BLOB, 0, KEYBOX_FLAG_BLOB_EPHEMERAL, 0); if (err) { log_error ("clearing ephemeral flag failed: %s\n", gpg_strerror (err)); print_import_problem (ctrl, cert, 0); stats->not_imported++; continue; } print_imported_status (ctrl, cert, 1); stats->imported++; } err = 0; if (es_ferror (fp)) { err = gpg_error_from_syserror (); log_error ("error reading fd %d: %s\n", in_fd, gpg_strerror (err)); goto leave; } leave: ksba_cert_release (cert); keydb_release (kh); es_fclose (fp); return err; } int gpgsm_import (ctrl_t ctrl, int in_fd, int reimport_mode) { int rc; struct stats_s stats; memset (&stats, 0, sizeof stats); if (reimport_mode) rc = reimport_one (ctrl, &stats, in_fd); else rc = import_one (ctrl, &stats, in_fd); print_imported_summary (ctrl, &stats); /* If we never printed an error message do it now so that a command line invocation will return with an error (log_error keeps a global errorcount) */ if (rc && !log_get_errorcount (0)) log_error (_("error importing certificate: %s\n"), gpg_strerror (rc)); return rc; } int gpgsm_import_files (ctrl_t ctrl, int nfiles, char **files, int (*of)(const char *fname)) { int rc = 0; struct stats_s stats; memset (&stats, 0, sizeof stats); if (!nfiles) rc = import_one (ctrl, &stats, 0); else { for (; nfiles && !rc ; nfiles--, files++) { int fd = of (*files); rc = import_one (ctrl, &stats, fd); close (fd); - if (rc == -1) + if (rc == -1/*legacy*/ || gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = 0; } } print_imported_summary (ctrl, &stats); /* If we never printed an error message do it now so that a command line invocation will return with an error (log_error keeps a global errorcount) */ if (rc && !log_get_errorcount (0)) log_error (_("error importing certificate: %s\n"), gpg_strerror (rc)); return rc; } /* Check that the RSA secret key SKEY is valid. Swap parameters to the libgcrypt standard. */ static gpg_error_t rsa_key_check (struct rsa_secret_key_s *skey) { int err = 0; gcry_mpi_t t = gcry_mpi_snew (0); gcry_mpi_t t1 = gcry_mpi_snew (0); gcry_mpi_t t2 = gcry_mpi_snew (0); gcry_mpi_t phi = gcry_mpi_snew (0); /* Check that n == p * q. */ gcry_mpi_mul (t, skey->p, skey->q); if (gcry_mpi_cmp( t, skey->n) ) { log_error ("RSA oops: n != p * q\n"); err++; } /* Check that p is less than q. */ if (gcry_mpi_cmp (skey->p, skey->q) > 0) { gcry_mpi_t tmp; log_info ("swapping secret primes\n"); tmp = gcry_mpi_copy (skey->p); gcry_mpi_set (skey->p, skey->q); gcry_mpi_set (skey->q, tmp); gcry_mpi_release (tmp); /* Recompute u. */ gcry_mpi_invm (skey->u, skey->p, skey->q); } /* Check that e divides neither p-1 nor q-1. */ gcry_mpi_sub_ui (t, skey->p, 1 ); gcry_mpi_div (NULL, t, t, skey->e, 0); if (!gcry_mpi_cmp_ui( t, 0) ) { log_error ("RSA oops: e divides p-1\n"); err++; } gcry_mpi_sub_ui (t, skey->q, 1); gcry_mpi_div (NULL, t, t, skey->e, 0); if (!gcry_mpi_cmp_ui( t, 0)) { log_info ("RSA oops: e divides q-1\n" ); err++; } /* Check that d is correct. */ gcry_mpi_sub_ui (t1, skey->p, 1); gcry_mpi_sub_ui (t2, skey->q, 1); gcry_mpi_mul (phi, t1, t2); gcry_mpi_invm (t, skey->e, phi); if (gcry_mpi_cmp (t, skey->d)) { /* No: try universal exponent. */ gcry_mpi_gcd (t, t1, t2); gcry_mpi_div (t, NULL, phi, t, 0); gcry_mpi_invm (t, skey->e, t); if (gcry_mpi_cmp (t, skey->d)) { log_error ("RSA oops: bad secret exponent\n"); err++; } } /* Check for correctness of u. */ gcry_mpi_invm (t, skey->p, skey->q); if (gcry_mpi_cmp (t, skey->u)) { log_info ("RSA oops: bad u parameter\n"); err++; } if (err) log_info ("RSA secret key check failed\n"); gcry_mpi_release (t); gcry_mpi_release (t1); gcry_mpi_release (t2); gcry_mpi_release (phi); return err? gpg_error (GPG_ERR_BAD_SECKEY):0; } /* Object passed to store_cert_cb. */ struct store_cert_parm_s { gpg_error_t err; /* First error seen. */ struct stats_s *stats; /* The stats object. */ ctrl_t ctrl; /* The control object. */ }; /* Helper to store the DER encoded certificate CERTDATA of length CERTDATALEN. */ static void store_cert_cb (void *opaque, const unsigned char *certdata, size_t certdatalen) { struct store_cert_parm_s *parm = opaque; gpg_error_t err; ksba_cert_t cert; err = ksba_cert_new (&cert); if (err) { if (!parm->err) parm->err = err; return; } err = ksba_cert_init_from_mem (cert, certdata, certdatalen); if (err) { log_error ("failed to parse a certificate: %s\n", gpg_strerror (err)); if (!parm->err) parm->err = err; } else check_and_store (parm->ctrl, parm->stats, cert, 0); ksba_cert_release (cert); } /* Assume that the reader is at a pkcs#12 message and try to import certificates from that stupid format. We will transfer secret keys to the agent. */ static gpg_error_t parse_p12 (ctrl_t ctrl, ksba_reader_t reader, struct stats_s *stats) { gpg_error_t err = 0; char buffer[1024]; size_t ntotal, nread; membuf_t p12mbuf; char *p12buffer = NULL; size_t p12buflen; size_t p12bufoff; gcry_mpi_t *kparms = NULL; struct rsa_secret_key_s sk; char *passphrase = NULL; unsigned char *key = NULL; size_t keylen; void *kek = NULL; size_t keklen; unsigned char *wrappedkey = NULL; size_t wrappedkeylen; gcry_cipher_hd_t cipherhd = NULL; gcry_sexp_t s_key = NULL; unsigned char grip[20]; int bad_pass = 0; int i; struct store_cert_parm_s store_cert_parm; memset (&store_cert_parm, 0, sizeof store_cert_parm); store_cert_parm.ctrl = ctrl; store_cert_parm.stats = stats; init_membuf (&p12mbuf, 4096); ntotal = 0; while (!(err = ksba_reader_read (reader, buffer, sizeof buffer, &nread))) { if (ntotal >= MAX_P12OBJ_SIZE*1024) { /* Arbitrary limit to avoid DoS attacks. */ err = gpg_error (GPG_ERR_TOO_LARGE); log_error ("pkcs#12 object is larger than %dk\n", MAX_P12OBJ_SIZE); break; } put_membuf (&p12mbuf, buffer, nread); ntotal += nread; } if (gpg_err_code (err) == GPG_ERR_EOF) err = 0; if (!err) { p12buffer = get_membuf (&p12mbuf, &p12buflen); if (!p12buffer) err = gpg_error_from_syserror (); } if (err) { log_error (_("error reading input: %s\n"), gpg_strerror (err)); goto leave; } /* GnuPG 2.0.4 accidentally created binary P12 files with the string "The passphrase is %s encoded.\n\n" prepended to the ASN.1 data. We fix that here. */ if (p12buflen > 29 && !memcmp (p12buffer, "The passphrase is ", 18)) { for (p12bufoff=18; p12bufoff < p12buflen && p12buffer[p12bufoff] != '\n'; p12bufoff++) ; p12bufoff++; if (p12bufoff < p12buflen && p12buffer[p12bufoff] == '\n') p12bufoff++; } else p12bufoff = 0; err = gpgsm_agent_ask_passphrase (ctrl, i18n_utf8 (N_("Please enter the passphrase to unprotect the PKCS#12 object.")), 0, &passphrase); if (err) goto leave; kparms = p12_parse (p12buffer + p12bufoff, p12buflen - p12bufoff, passphrase, store_cert_cb, &store_cert_parm, &bad_pass, NULL); xfree (passphrase); passphrase = NULL; if (!kparms) { log_error ("error parsing or decrypting the PKCS#12 file\n"); err = gpg_error (GPG_ERR_INV_OBJ); goto leave; } /* print_mpi (" n", kparms[0]); */ /* print_mpi (" e", kparms[1]); */ /* print_mpi (" d", kparms[2]); */ /* print_mpi (" p", kparms[3]); */ /* print_mpi (" q", kparms[4]); */ /* print_mpi ("dmp1", kparms[5]); */ /* print_mpi ("dmq1", kparms[6]); */ /* print_mpi (" u", kparms[7]); */ sk.n = kparms[0]; sk.e = kparms[1]; sk.d = kparms[2]; sk.q = kparms[3]; sk.p = kparms[4]; sk.u = kparms[7]; err = rsa_key_check (&sk); if (err) goto leave; /* print_mpi (" n", sk.n); */ /* print_mpi (" e", sk.e); */ /* print_mpi (" d", sk.d); */ /* print_mpi (" p", sk.p); */ /* print_mpi (" q", sk.q); */ /* print_mpi (" u", sk.u); */ /* Create an S-expression from the parameters. */ err = gcry_sexp_build (&s_key, NULL, "(private-key(rsa(n%m)(e%m)(d%m)(p%m)(q%m)(u%m)))", sk.n, sk.e, sk.d, sk.p, sk.q, sk.u, NULL); for (i=0; i < 8; i++) gcry_mpi_release (kparms[i]); gcry_free (kparms); kparms = NULL; if (err) { log_error ("failed to create S-expression from key: %s\n", gpg_strerror (err)); goto leave; } /* Compute the keygrip. */ if (!gcry_pk_get_keygrip (s_key, grip)) { err = gpg_error (GPG_ERR_GENERAL); log_error ("can't calculate keygrip\n"); goto leave; } if (DBG_X509) log_printhex (grip, 20, "keygrip="); /* Convert to canonical encoding using a function which pads it to a multiple of 64 bits. We need this padding for AESWRAP. */ err = make_canon_sexp_pad (s_key, 1, &key, &keylen); if (err) { log_error ("error creating canonical S-expression\n"); goto leave; } gcry_sexp_release (s_key); s_key = NULL; /* Get the current KEK. */ err = gpgsm_agent_keywrap_key (ctrl, 0, &kek, &keklen); if (err) { log_error ("error getting the KEK: %s\n", gpg_strerror (err)); goto leave; } /* Wrap the key. */ err = gcry_cipher_open (&cipherhd, GCRY_CIPHER_AES128, GCRY_CIPHER_MODE_AESWRAP, 0); if (err) goto leave; err = gcry_cipher_setkey (cipherhd, kek, keklen); if (err) goto leave; xfree (kek); kek = NULL; wrappedkeylen = keylen + 8; wrappedkey = xtrymalloc (wrappedkeylen); if (!wrappedkey) { err = gpg_error_from_syserror (); goto leave; } err = gcry_cipher_encrypt (cipherhd, wrappedkey, wrappedkeylen, key, keylen); if (err) goto leave; xfree (key); key = NULL; gcry_cipher_close (cipherhd); cipherhd = NULL; /* Send the wrapped key to the agent. */ err = gpgsm_agent_import_key (ctrl, wrappedkey, wrappedkeylen); if (!err) { stats->count++; stats->secret_read++; stats->secret_imported++; } else if ( gpg_err_code (err) == GPG_ERR_EEXIST ) { err = 0; stats->count++; stats->secret_read++; stats->secret_dups++; } /* If we did not get an error from storing the secret key we return a possible error from parsing the certificates. We do this after storing the secret keys so that a bad certificate does not inhibit our chance to store the secret key. */ if (!err && store_cert_parm.err) err = store_cert_parm.err; leave: if (kparms) { for (i=0; i < 8; i++) gcry_mpi_release (kparms[i]); gcry_free (kparms); kparms = NULL; } xfree (key); gcry_sexp_release (s_key); xfree (passphrase); gcry_cipher_close (cipherhd); xfree (wrappedkey); xfree (kek); xfree (get_membuf (&p12mbuf, NULL)); xfree (p12buffer); if (bad_pass) { /* We only write a plain error code and not direct BAD_PASSPHRASE because the pkcs12 parser might issue this message multiple times, BAD_PASSPHRASE in general requires a keyID and parts of the import might actually succeed so that IMPORT_PROBLEM is also not appropriate. */ gpgsm_status_with_err_code (ctrl, STATUS_ERROR, "import.parsep12", GPG_ERR_BAD_PASSPHRASE); } return err; } diff --git a/sm/keydb.c b/sm/keydb.c index 564d4495d..10d878fab 100644 --- a/sm/keydb.c +++ b/sm/keydb.c @@ -1,1322 +1,1327 @@ /* keydb.c - key database dispatcher * Copyright (C) 2001, 2003, 2004 Free Software Foundation, Inc. * Copyright (C) 2014 g10 Code GmbH * * 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 #include #include #include "gpgsm.h" #include "../kbx/keybox.h" #include "keydb.h" #include "../common/i18n.h" static int active_handles; typedef enum { KEYDB_RESOURCE_TYPE_NONE = 0, KEYDB_RESOURCE_TYPE_KEYBOX } KeydbResourceType; #define MAX_KEYDB_RESOURCES 20 struct resource_item { KeydbResourceType type; union { KEYBOX_HANDLE kr; } u; void *token; dotlock_t lockhandle; }; static struct resource_item all_resources[MAX_KEYDB_RESOURCES]; static int used_resources; /* Whether we have successfully registered any resource. */ static int any_registered; struct keydb_handle { int found; int saved_found; int current; int is_ephemeral; int used; /* items in active */ struct resource_item active[MAX_KEYDB_RESOURCES]; }; static int lock_all (KEYDB_HANDLE hd); static void unlock_all (KEYDB_HANDLE hd); static void try_make_homedir (const char *fname) { if ( opt.dry_run || opt.no_homedir_creation ) return; gnupg_maybe_make_homedir (fname, opt.quiet); } /* Handle the creation of a keybox if it does not yet exist. Take into acount that other processes might have the keybox already locked. This lock check does not work if the directory itself is not yet available. If R_CREATED is not NULL it will be set to true if the function created a new keybox. */ static gpg_error_t maybe_create_keybox (char *filename, int force, int *r_created) { gpg_err_code_t ec; dotlock_t lockhd = NULL; estream_t fp; int rc; mode_t oldmask; char *last_slash_in_filename; int save_slash; if (r_created) *r_created = 0; /* A quick test whether the filename already exists. */ if (!gnupg_access (filename, F_OK)) return !gnupg_access (filename, R_OK)? 0 : gpg_error (GPG_ERR_EACCES); /* If we don't want to create a new file at all, there is no need to go any further - bail out right here. */ if (!force) return gpg_error (GPG_ERR_ENOENT); /* First of all we try to create the home directory. Note, that we don't do any locking here because any sane application of gpg would create the home directory by itself and not rely on gpg's tricky auto-creation which is anyway only done for some home directory name patterns. */ last_slash_in_filename = strrchr (filename, DIRSEP_C); #if HAVE_W32_SYSTEM { /* Windows may either have a slash or a backslash. Take care of it. */ char *p = strrchr (filename, '/'); if (!last_slash_in_filename || p > last_slash_in_filename) last_slash_in_filename = p; } #endif /*HAVE_W32_SYSTEM*/ if (!last_slash_in_filename) return gpg_error (GPG_ERR_ENOENT); /* No slash at all - should not happen though. */ save_slash = *last_slash_in_filename; *last_slash_in_filename = 0; if (gnupg_access(filename, F_OK)) { static int tried; if (!tried) { tried = 1; try_make_homedir (filename); } if ((ec = gnupg_access (filename, F_OK))) { rc = gpg_error (ec); *last_slash_in_filename = save_slash; goto leave; } } *last_slash_in_filename = save_slash; /* To avoid races with other instances of gpg/gpgsm trying to create or update the keybox (it is removed during an update for a short time), we do the next stuff in a locked state. */ lockhd = dotlock_create (filename, 0); if (!lockhd) { /* A reason for this to fail is that the directory is not writable. However, this whole locking stuff does not make sense if this is the case. An empty non-writable directory with no keyring is not really useful at all. */ if (opt.verbose) log_info ("can't allocate lock for '%s'\n", filename ); if (!force) return gpg_error (GPG_ERR_ENOENT); else return gpg_error (GPG_ERR_GENERAL); } if ( dotlock_take (lockhd, -1) ) { /* This is something bad. Probably a stale lockfile. */ log_info ("can't lock '%s'\n", filename); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } /* Now the real test while we are locked. */ if (!gnupg_access(filename, F_OK)) { rc = 0; /* Okay, we may access the file now. */ goto leave; } /* The file does not yet exist, create it now. */ oldmask = umask (077); fp = es_fopen (filename, "wb"); if (!fp) { rc = gpg_error_from_syserror (); umask (oldmask); log_error (_("error creating keybox '%s': %s\n"), filename, gpg_strerror (rc)); goto leave; } umask (oldmask); /* Make sure that at least one record is in a new keybox file, so that the detection magic for OpenPGP keyboxes works the next time it is used. */ rc = _keybox_write_header_blob (fp, 0); if (rc) { es_fclose (fp); log_error (_("error creating keybox '%s': %s\n"), filename, gpg_strerror (rc)); goto leave; } if (!opt.quiet) log_info (_("keybox '%s' created\n"), filename); if (r_created) *r_created = 1; es_fclose (fp); rc = 0; leave: if (lockhd) { dotlock_release (lockhd); dotlock_destroy (lockhd); } return rc; } /* * Register a resource (which currently may only be a keybox file). * The first keybox which is added by this function is created if it * does not exist. If AUTO_CREATED is not NULL it will be set to true * if the function has created a new keybox. */ gpg_error_t keydb_add_resource (ctrl_t ctrl, const char *url, int force, int *auto_created) { const char *resname = url; char *filename = NULL; gpg_error_t err = 0; KeydbResourceType rt = KEYDB_RESOURCE_TYPE_NONE; if (auto_created) *auto_created = 0; /* Do we have an URL? gnupg-kbx:filename := this is a plain keybox filename := See what it is, but create as plain keybox. */ if (strlen (resname) > 10) { if (!strncmp (resname, "gnupg-kbx:", 10) ) { rt = KEYDB_RESOURCE_TYPE_KEYBOX; resname += 10; } #if !defined(HAVE_DRIVE_LETTERS) && !defined(__riscos__) else if (strchr (resname, ':')) { log_error ("invalid key resource URL '%s'\n", url ); err = gpg_error (GPG_ERR_GENERAL); goto leave; } #endif /* !HAVE_DRIVE_LETTERS && !__riscos__ */ } if (*resname != DIRSEP_C ) { /* do tilde expansion etc */ if (strchr(resname, DIRSEP_C) ) filename = make_filename (resname, NULL); else filename = make_filename (gnupg_homedir (), resname, NULL); } else filename = xstrdup (resname); if (!force) force = !any_registered; /* see whether we can determine the filetype */ if (rt == KEYDB_RESOURCE_TYPE_NONE) { estream_t fp; fp = es_fopen( filename, "rb" ); if (fp) { u32 magic; /* FIXME: check for the keybox magic */ if (es_fread (&magic, 4, 1, fp) == 1 ) { if (magic == 0x13579ace || magic == 0xce9a5713) ; /* GDBM magic - no more support */ else rt = KEYDB_RESOURCE_TYPE_KEYBOX; } else /* maybe empty: assume keybox */ rt = KEYDB_RESOURCE_TYPE_KEYBOX; es_fclose (fp); } else /* no file yet: create keybox */ rt = KEYDB_RESOURCE_TYPE_KEYBOX; } switch (rt) { case KEYDB_RESOURCE_TYPE_NONE: log_error ("unknown type of key resource '%s'\n", url ); err = gpg_error (GPG_ERR_GENERAL); goto leave; case KEYDB_RESOURCE_TYPE_KEYBOX: err = maybe_create_keybox (filename, force, auto_created); if (err) goto leave; /* Now register the file */ { void *token; err = keybox_register_file (filename, 0, &token); if (gpg_err_code (err) == GPG_ERR_EEXIST) ; /* Already registered - ignore. */ else if (err) ; /* Other error. */ else if (used_resources >= MAX_KEYDB_RESOURCES) err = gpg_error (GPG_ERR_RESOURCE_LIMIT); else { all_resources[used_resources].type = rt; all_resources[used_resources].u.kr = NULL; /* Not used here */ all_resources[used_resources].token = token; all_resources[used_resources].lockhandle = dotlock_create (filename, 0); if (!all_resources[used_resources].lockhandle) log_fatal ( _("can't create lock for '%s'\n"), filename); /* Do a compress run if needed and the file is not locked. */ if (!dotlock_take (all_resources[used_resources].lockhandle, 0)) { KEYBOX_HANDLE kbxhd = keybox_new_x509 (token, 0); if (kbxhd) { keybox_compress (kbxhd); keybox_release (kbxhd); } dotlock_release (all_resources[used_resources].lockhandle); } used_resources++; } } break; default: log_error ("resource type of '%s' not supported\n", url); err = gpg_error (GPG_ERR_NOT_SUPPORTED); goto leave; } /* fixme: check directory permissions and print a warning */ leave: if (err) { log_error ("keyblock resource '%s': %s\n", filename, gpg_strerror (err)); gpgsm_status_with_error (ctrl, STATUS_ERROR, "add_keyblock_resource", err); } else any_registered = 1; xfree (filename); return err; } /* This is a helper requyired under Windows to close all files so that * a rename will work. */ void keydb_close_all_files (void) { #ifdef HAVE_W32_SYSTEM int i; log_assert (used_resources <= MAX_KEYDB_RESOURCES); for (i=0; i < used_resources; i++) if (all_resources[i].type == KEYDB_RESOURCE_TYPE_KEYBOX) keybox_close_all_files (all_resources[i].token); #endif } KEYDB_HANDLE keydb_new (void) { KEYDB_HANDLE hd; int i, j; hd = xcalloc (1, sizeof *hd); hd->found = -1; hd->saved_found = -1; assert (used_resources <= MAX_KEYDB_RESOURCES); for (i=j=0; i < used_resources; i++) { switch (all_resources[i].type) { case KEYDB_RESOURCE_TYPE_NONE: /* ignore */ break; case KEYDB_RESOURCE_TYPE_KEYBOX: hd->active[j].type = all_resources[i].type; hd->active[j].token = all_resources[i].token; hd->active[j].lockhandle = all_resources[i].lockhandle; hd->active[j].u.kr = keybox_new_x509 (all_resources[i].token, 0); if (!hd->active[j].u.kr) { xfree (hd); return NULL; /* fixme: release all previously allocated handles*/ } j++; break; } } hd->used = j; active_handles++; return hd; } void keydb_release (KEYDB_HANDLE hd) { int i; if (!hd) return; assert (active_handles > 0); active_handles--; unlock_all (hd); for (i=0; i < hd->used; i++) { switch (hd->active[i].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: keybox_release (hd->active[i].u.kr); break; } } xfree (hd); } /* Return the name of the current resource. This is function first looks for the last found found, then for the current search position, and last returns the first available resource. The returned string is only valid as long as the handle exists. This function does only return NULL if no handle is specified, in all other error cases an empty string is returned. */ const char * keydb_get_resource_name (KEYDB_HANDLE hd) { int idx; const char *s = NULL; if (!hd) return NULL; if ( hd->found >= 0 && hd->found < hd->used) idx = hd->found; else if ( hd->current >= 0 && hd->current < hd->used) idx = hd->current; else idx = 0; switch (hd->active[idx].type) { case KEYDB_RESOURCE_TYPE_NONE: s = NULL; break; case KEYDB_RESOURCE_TYPE_KEYBOX: s = keybox_get_resource_name (hd->active[idx].u.kr); break; } return s? s: ""; } /* Switch the handle into ephemeral mode and return the original value. */ int keydb_set_ephemeral (KEYDB_HANDLE hd, int yes) { int i; if (!hd) return 0; yes = !!yes; if (hd->is_ephemeral != yes) { for (i=0; i < hd->used; i++) { switch (hd->active[i].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: keybox_set_ephemeral (hd->active[i].u.kr, yes); break; } } } i = hd->is_ephemeral; hd->is_ephemeral = yes; return i; } /* If the keyring has not yet been locked, lock it now. This operation is required before any update operation; On Windows it is always required to disallow other processes to open the file which in turn would inhibit our copy+update+rename method. The lock is released with keydb_released. */ gpg_error_t keydb_lock (KEYDB_HANDLE hd) { if (!hd) return gpg_error (GPG_ERR_INV_HANDLE); return lock_all (hd); } /* Same as keydb_lock but no check for an invalid HD. */ static int lock_all (KEYDB_HANDLE hd) { int i, rc = 0; /* Fixme: This locking scheme may lead to deadlock if the resources are not added in the same order by all processes. We are currently only allowing one resource so it is not a problem. */ for (i=0; i < hd->used; i++) { switch (hd->active[i].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: if (hd->active[i].lockhandle) rc = dotlock_take (hd->active[i].lockhandle, -1); break; } if (rc) break; } if (rc) { /* revert the already set locks */ for (i--; i >= 0; i--) { switch (hd->active[i].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: if (hd->active[i].lockhandle) dotlock_release (hd->active[i].lockhandle); break; } } } /* make_dotlock () does not yet guarantee that errno is set, thus we can't rely on the error reason and will simply use EACCES. */ return rc? gpg_error (GPG_ERR_EACCES) : 0; } static void unlock_all (KEYDB_HANDLE hd) { int i; for (i=hd->used-1; i >= 0; i--) { switch (hd->active[i].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: if (hd->active[i].lockhandle) dotlock_release (hd->active[i].lockhandle); break; } } } /* Push the last found state if any. */ void keydb_push_found_state (KEYDB_HANDLE hd) { if (!hd) return; if (hd->found < 0 || hd->found >= hd->used) { hd->saved_found = -1; return; } switch (hd->active[hd->found].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: keybox_push_found_state (hd->active[hd->found].u.kr); break; } hd->saved_found = hd->found; hd->found = -1; } /* Pop the last found state. */ void keydb_pop_found_state (KEYDB_HANDLE hd) { if (!hd) return; hd->found = hd->saved_found; hd->saved_found = -1; if (hd->found < 0 || hd->found >= hd->used) return; switch (hd->active[hd->found].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: keybox_pop_found_state (hd->active[hd->found].u.kr); break; } } /* Return the last found object. Caller must free it. The returned keyblock has the kbode flag bit 0 set for the node with the public key used to locate the keyblock or flag bit 1 set for the user ID node. */ int keydb_get_cert (KEYDB_HANDLE hd, ksba_cert_t *r_cert) { int rc = 0; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); if ( hd->found < 0 || hd->found >= hd->used) return -1; /* nothing found */ switch (hd->active[hd->found].type) { case KEYDB_RESOURCE_TYPE_NONE: rc = gpg_error (GPG_ERR_GENERAL); /* oops */ break; case KEYDB_RESOURCE_TYPE_KEYBOX: rc = keybox_get_cert (hd->active[hd->found].u.kr, r_cert); break; } return rc; } /* Return a flag of the last found object. WHICH is the flag requested; it should be one of the KEYBOX_FLAG_ values. If the operation is successful, the flag value will be stored at the address given by VALUE. Return 0 on success or an error code. */ gpg_error_t keydb_get_flags (KEYDB_HANDLE hd, int which, int idx, unsigned int *value) { int err = 0; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); if ( hd->found < 0 || hd->found >= hd->used) return gpg_error (GPG_ERR_NOTHING_FOUND); switch (hd->active[hd->found].type) { case KEYDB_RESOURCE_TYPE_NONE: err = gpg_error (GPG_ERR_GENERAL); /* oops */ break; case KEYDB_RESOURCE_TYPE_KEYBOX: err = keybox_get_flags (hd->active[hd->found].u.kr, which, idx, value); break; } return err; } /* Set a flag of the last found object. WHICH is the flag to be set; it should be one of the KEYBOX_FLAG_ values. If the operation is successful, the flag value will be stored in the keybox. Note, that some flag values can't be updated and thus may return an error, some other flag values may be masked out before an update. Returns 0 on success or an error code. */ gpg_error_t keydb_set_flags (KEYDB_HANDLE hd, int which, int idx, unsigned int value) { int err = 0; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); if ( hd->found < 0 || hd->found >= hd->used) return gpg_error (GPG_ERR_NOTHING_FOUND); if (!dotlock_is_locked (hd->active[hd->found].lockhandle)) return gpg_error (GPG_ERR_NOT_LOCKED); switch (hd->active[hd->found].type) { case KEYDB_RESOURCE_TYPE_NONE: err = gpg_error (GPG_ERR_GENERAL); /* oops */ break; case KEYDB_RESOURCE_TYPE_KEYBOX: err = keybox_set_flags (hd->active[hd->found].u.kr, which, idx, value); break; } return err; } /* * Insert a new Certificate into one of the resources. */ int keydb_insert_cert (KEYDB_HANDLE hd, ksba_cert_t cert) { int rc = -1; int idx; unsigned char digest[20]; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); if (opt.dry_run) return 0; if ( hd->found >= 0 && hd->found < hd->used) idx = hd->found; else if ( hd->current >= 0 && hd->current < hd->used) idx = hd->current; else return gpg_error (GPG_ERR_GENERAL); if (!dotlock_is_locked (hd->active[idx].lockhandle)) return gpg_error (GPG_ERR_NOT_LOCKED); gpgsm_get_fingerprint (cert, GCRY_MD_SHA1, digest, NULL); /* kludge*/ switch (hd->active[idx].type) { case KEYDB_RESOURCE_TYPE_NONE: rc = gpg_error (GPG_ERR_GENERAL); break; case KEYDB_RESOURCE_TYPE_KEYBOX: rc = keybox_insert_cert (hd->active[idx].u.kr, cert, digest); break; } unlock_all (hd); return rc; } /* * The current keyblock or cert will be deleted. */ int keydb_delete (KEYDB_HANDLE hd, int unlock) { int rc = -1; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); if ( hd->found < 0 || hd->found >= hd->used) return -1; /* nothing found */ if( opt.dry_run ) return 0; if (!dotlock_is_locked (hd->active[hd->found].lockhandle)) return gpg_error (GPG_ERR_NOT_LOCKED); switch (hd->active[hd->found].type) { case KEYDB_RESOURCE_TYPE_NONE: rc = gpg_error (GPG_ERR_GENERAL); break; case KEYDB_RESOURCE_TYPE_KEYBOX: rc = keybox_delete (hd->active[hd->found].u.kr); break; } if (unlock) unlock_all (hd); return rc; } /* * Locate the default writable key resource, so that the next * operation (which is only relevant for inserts) will be done on this * resource. */ int keydb_locate_writable (KEYDB_HANDLE hd, const char *reserved) { int rc; (void)reserved; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); rc = keydb_search_reset (hd); /* this does reset hd->current */ if (rc) return rc; for ( ; hd->current >= 0 && hd->current < hd->used; hd->current++) { switch (hd->active[hd->current].type) { case KEYDB_RESOURCE_TYPE_NONE: BUG(); break; case KEYDB_RESOURCE_TYPE_KEYBOX: if (keybox_is_writable (hd->active[hd->current].token)) return 0; /* found (hd->current is set to it) */ break; } } return -1; } /* * Rebuild the caches of all key resources. */ void keydb_rebuild_caches (void) { int i; for (i=0; i < used_resources; i++) { switch (all_resources[i].type) { case KEYDB_RESOURCE_TYPE_NONE: /* ignore */ break; case KEYDB_RESOURCE_TYPE_KEYBOX: /* rc = keybox_rebuild_cache (all_resources[i].token); */ /* if (rc) */ /* log_error (_("failed to rebuild keybox cache: %s\n"), */ /* g10_errstr (rc)); */ break; } } } /* * Start the next search on this handle right at the beginning */ gpg_error_t keydb_search_reset (KEYDB_HANDLE hd) { int i; gpg_error_t rc = 0; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); hd->current = 0; hd->found = -1; /* and reset all resources */ for (i=0; !rc && i < hd->used; i++) { switch (hd->active[i].type) { case KEYDB_RESOURCE_TYPE_NONE: break; case KEYDB_RESOURCE_TYPE_KEYBOX: rc = keybox_search_reset (hd->active[i].u.kr); break; } } return rc; } /* * Search through all keydb resources, starting at the current position, * for a keyblock which contains one of the keys described in the DESC array. */ int keydb_search (ctrl_t ctrl, KEYDB_HANDLE hd, KEYDB_SEARCH_DESC *desc, size_t ndesc) { int rc; unsigned long skipped; if (!hd) return gpg_error (GPG_ERR_INV_VALUE); if (!any_registered) { gpgsm_status_with_error (ctrl, STATUS_ERROR, "keydb_search", gpg_error (GPG_ERR_KEYRING_OPEN)); return gpg_error (GPG_ERR_NOT_FOUND); } rc = lock_all (hd); if (rc) return rc; - rc = -1; + rc = gpg_error (GPG_ERR_EOF); - while (rc == -1 && hd->current >= 0 && hd->current < hd->used) + while (gpg_err_code (rc) == GPG_ERR_EOF + && hd->current >= 0 && hd->current < hd->used) { switch (hd->active[hd->current].type) { case KEYDB_RESOURCE_TYPE_NONE: BUG(); /* we should never see it here */ break; case KEYDB_RESOURCE_TYPE_KEYBOX: rc = keybox_search (hd->active[hd->current].u.kr, desc, ndesc, KEYBOX_BLOBTYPE_X509, NULL, &skipped); + if (rc == -1) /* Map legacy code. */ + rc = gpg_error (GPG_ERR_EOF); break; } - if (rc == -1 || gpg_err_code (rc) == GPG_ERR_EOF) + if (gpg_err_code (rc) == GPG_ERR_EOF) { /* EOF -> switch to next resource */ hd->current++; } else if (!rc) hd->found = hd->current; } + /* The NOTHING_FOUND error is triggered by a NEXT command. */ + if (gpg_err_code (rc) == GPG_ERR_EOF + || gpg_err_code (rc) == GPG_ERR_NOTHING_FOUND) + rc = gpg_error (GPG_ERR_NOT_FOUND); return rc; } int keydb_search_first (ctrl_t ctrl, KEYDB_HANDLE hd) { KEYDB_SEARCH_DESC desc; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_FIRST; return keydb_search (ctrl, hd, &desc, 1); } int keydb_search_next (ctrl_t ctrl, KEYDB_HANDLE hd) { KEYDB_SEARCH_DESC desc; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_NEXT; return keydb_search (ctrl, hd, &desc, 1); } int keydb_search_kid (ctrl_t ctrl, KEYDB_HANDLE hd, u32 *kid) { KEYDB_SEARCH_DESC desc; (void)kid; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_LONG_KID; desc.u.kid[0] = kid[0]; desc.u.kid[1] = kid[1]; return keydb_search (ctrl, hd, &desc, 1); } int keydb_search_fpr (ctrl_t ctrl, KEYDB_HANDLE hd, const byte *fpr) { KEYDB_SEARCH_DESC desc; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_FPR; memcpy (desc.u.fpr, fpr, 20); return keydb_search (ctrl, hd, &desc, 1); } int keydb_search_issuer (ctrl_t ctrl, KEYDB_HANDLE hd, const char *issuer) { KEYDB_SEARCH_DESC desc; int rc; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_ISSUER; desc.u.name = issuer; rc = keydb_search (ctrl, hd, &desc, 1); return rc; } int keydb_search_issuer_sn (ctrl_t ctrl, KEYDB_HANDLE hd, const char *issuer, ksba_const_sexp_t serial) { KEYDB_SEARCH_DESC desc; int rc; const unsigned char *s; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_ISSUER_SN; s = serial; if (*s !='(') return gpg_error (GPG_ERR_INV_VALUE); s++; for (desc.snlen = 0; digitp (s); s++) desc.snlen = 10*desc.snlen + atoi_1 (s); if (*s !=':') return gpg_error (GPG_ERR_INV_VALUE); desc.sn = s+1; desc.u.name = issuer; rc = keydb_search (ctrl, hd, &desc, 1); return rc; } int keydb_search_subject (ctrl_t ctrl, KEYDB_HANDLE hd, const char *name) { KEYDB_SEARCH_DESC desc; int rc; memset (&desc, 0, sizeof desc); desc.mode = KEYDB_SEARCH_MODE_SUBJECT; desc.u.name = name; rc = keydb_search (ctrl, hd, &desc, 1); return rc; } /* Store the certificate in the key DB but make sure that it does not already exists. We do this simply by comparing the fingerprint. If EXISTED is not NULL it will be set to true if the certificate was already in the DB. */ int keydb_store_cert (ctrl_t ctrl, ksba_cert_t cert, int ephemeral, int *existed) { KEYDB_HANDLE kh; int rc; unsigned char fpr[20]; if (existed) *existed = 0; if (!gpgsm_get_fingerprint (cert, 0, fpr, NULL)) { log_error (_("failed to get the fingerprint\n")); return gpg_error (GPG_ERR_GENERAL); } kh = keydb_new (); if (!kh) { log_error (_("failed to allocate keyDB handle\n")); return gpg_error (GPG_ERR_ENOMEM);; } /* Set the ephemeral flag so that the search looks at all records. */ keydb_set_ephemeral (kh, 1); keydb_close_all_files (); rc = lock_all (kh); if (rc) return rc; rc = keydb_search_fpr (ctrl, kh, fpr); - if (rc != -1) + if (gpg_err_code (rc) != GPG_ERR_NOT_FOUND) { keydb_release (kh); if (!rc) { if (existed) *existed = 1; if (!ephemeral) { /* Remove ephemeral flags from existing certificate to "store" it permanently. */ rc = keydb_set_cert_flags (ctrl, cert, 1, KEYBOX_FLAG_BLOB, 0, KEYBOX_FLAG_BLOB_EPHEMERAL, 0); if (rc) { log_error ("clearing ephemeral flag failed: %s\n", gpg_strerror (rc)); return rc; } } return 0; /* okay */ } log_error (_("problem looking for existing certificate: %s\n"), gpg_strerror (rc)); return rc; } /* Reset the ephemeral flag if not requested. */ if (!ephemeral) keydb_set_ephemeral (kh, 0); rc = keydb_locate_writable (kh, 0); if (rc) { log_error (_("error finding writable keyDB: %s\n"), gpg_strerror (rc)); keydb_release (kh); return rc; } rc = keydb_insert_cert (kh, cert); if (rc) { log_error (_("error storing certificate: %s\n"), gpg_strerror (rc)); keydb_release (kh); return rc; } keydb_release (kh); return 0; } /* This is basically keydb_set_flags but it implements a complete transaction by locating the certificate in the DB and updating the flags. */ gpg_error_t keydb_set_cert_flags (ctrl_t ctrl, ksba_cert_t cert, int ephemeral, int which, int idx, unsigned int mask, unsigned int value) { KEYDB_HANDLE kh; gpg_error_t err; unsigned char fpr[20]; unsigned int old_value; if (!gpgsm_get_fingerprint (cert, 0, fpr, NULL)) { log_error (_("failed to get the fingerprint\n")); return gpg_error (GPG_ERR_GENERAL); } kh = keydb_new (); if (!kh) { log_error (_("failed to allocate keyDB handle\n")); return gpg_error (GPG_ERR_ENOMEM);; } if (ephemeral) keydb_set_ephemeral (kh, 1); keydb_close_all_files (); err = lock_all (kh); if (err) { log_error (_("error locking keybox: %s\n"), gpg_strerror (err)); keydb_release (kh); return err; } err = keydb_search_fpr (ctrl, kh, fpr); if (err) { - if (err == -1) - err = gpg_error (GPG_ERR_NOT_FOUND); - else + if (gpg_err_code (err) != gpg_error (GPG_ERR_NOT_FOUND)) log_error (_("problem re-searching certificate: %s\n"), gpg_strerror (err)); keydb_release (kh); return err; } err = keydb_get_flags (kh, which, idx, &old_value); if (err) { log_error (_("error getting stored flags: %s\n"), gpg_strerror (err)); keydb_release (kh); return err; } value = ((old_value & ~mask) | (value & mask)); if (value != old_value) { err = keydb_set_flags (kh, which, idx, value); if (err) { log_error (_("error storing flags: %s\n"), gpg_strerror (err)); keydb_release (kh); return err; } } keydb_release (kh); return 0; } /* Reset all the certificate flags we have stored with the certificates for performance reasons. */ void keydb_clear_some_cert_flags (ctrl_t ctrl, strlist_t names) { gpg_error_t err; KEYDB_HANDLE hd = NULL; KEYDB_SEARCH_DESC *desc = NULL; int ndesc; strlist_t sl; int rc=0; unsigned int old_value, value; (void)ctrl; hd = keydb_new (); if (!hd) { log_error ("keydb_new failed\n"); goto leave; } if (!names) ndesc = 1; else { for (sl=names, ndesc=0; sl; sl = sl->next, ndesc++) ; } desc = xtrycalloc (ndesc, sizeof *desc); if (!ndesc) { log_error ("allocating memory failed: %s\n", gpg_strerror (out_of_core ())); goto leave; } if (!names) desc[0].mode = KEYDB_SEARCH_MODE_FIRST; else { for (ndesc=0, sl=names; sl; sl = sl->next) { rc = classify_user_id (sl->d, desc+ndesc, 0); if (rc) log_error ("key '%s' not found: %s\n", sl->d, gpg_strerror (rc)); else ndesc++; } } keydb_close_all_files (); err = lock_all (hd); if (err) { log_error (_("error locking keybox: %s\n"), gpg_strerror (err)); goto leave; } while (!(rc = keydb_search (ctrl, hd, desc, ndesc))) { if (!names) desc[0].mode = KEYDB_SEARCH_MODE_NEXT; err = keydb_get_flags (hd, KEYBOX_FLAG_VALIDITY, 0, &old_value); if (err) { log_error (_("error getting stored flags: %s\n"), gpg_strerror (err)); goto leave; } value = (old_value & ~VALIDITY_REVOKED); if (value != old_value) { err = keydb_set_flags (hd, KEYBOX_FLAG_VALIDITY, 0, value); if (err) { log_error (_("error storing flags: %s\n"), gpg_strerror (err)); goto leave; } } } - if (rc && rc != -1) + if (rc && gpg_err_code (rc) != GPG_ERR_NOT_FOUND) log_error ("%s failed: %s\n", __func__, gpg_strerror (rc)); leave: xfree (desc); keydb_release (hd); } diff --git a/sm/keylist.c b/sm/keylist.c index 19e7a76c8..1d6c93359 100644 --- a/sm/keylist.c +++ b/sm/keylist.c @@ -1,1687 +1,1688 @@ /* keylist.c - Print certificates in various formats. * Copyright (C) 1998, 1999, 2000, 2001, 2003, 2004, 2005, 2008, 2009, * 2010, 2011 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 #include #include "gpgsm.h" #include #include #include "keydb.h" #include "../kbx/keybox.h" /* for KEYBOX_FLAG_* */ #include "../common/i18n.h" #include "../common/tlv.h" #include "../common/compliance.h" struct list_external_parm_s { ctrl_t ctrl; estream_t fp; int print_header; int with_colons; int with_chain; int raw_mode; }; /* This table is to map Extended Key Usage OIDs to human readable names. */ struct { const char *oid; const char *name; } key_purpose_map[] = { { "1.3.6.1.5.5.7.3.1", "serverAuth" }, { "1.3.6.1.5.5.7.3.2", "clientAuth" }, { "1.3.6.1.5.5.7.3.3", "codeSigning" }, { "1.3.6.1.5.5.7.3.4", "emailProtection" }, { "1.3.6.1.5.5.7.3.5", "ipsecEndSystem" }, { "1.3.6.1.5.5.7.3.6", "ipsecTunnel" }, { "1.3.6.1.5.5.7.3.7", "ipsecUser" }, { "1.3.6.1.5.5.7.3.8", "timeStamping" }, { "1.3.6.1.5.5.7.3.9", "ocspSigning" }, { "1.3.6.1.5.5.7.3.10", "dvcs" }, { "1.3.6.1.5.5.7.3.11", "sbgpCertAAServerAuth" }, { "1.3.6.1.5.5.7.3.13", "eapOverPPP" }, { "1.3.6.1.5.5.7.3.14", "wlanSSID" }, { "2.16.840.1.113730.4.1", "serverGatedCrypto.ns" }, /* Netscape. */ { "1.3.6.1.4.1.311.10.3.3", "serverGatedCrypto.ms"}, /* Microsoft. */ { "1.3.6.1.5.5.7.48.1.5", "ocspNoCheck" }, { NULL, NULL } }; /* Do not print this extension in the list of extensions. This is set for oids which are already available via ksba functions. */ #define OID_FLAG_SKIP 1 /* The extension is a simple UTF8String and should be printed. */ #define OID_FLAG_UTF8 2 /* The extension can be trnted as a hex string. */ #define OID_FLAG_HEX 4 /* A table mapping OIDs to a descriptive string. */ static struct { char *oid; char *name; unsigned int flag; /* A flag as described above. */ } oidtranstbl[] = { /* Algorithms. */ { "1.2.840.10040.4.1", "dsa" }, { "1.2.840.10040.4.3", "dsaWithSha1" }, { "1.2.840.113549.1.1.1", "rsaEncryption" }, { "1.2.840.113549.1.1.2", "md2WithRSAEncryption" }, { "1.2.840.113549.1.1.3", "md4WithRSAEncryption" }, { "1.2.840.113549.1.1.4", "md5WithRSAEncryption" }, { "1.2.840.113549.1.1.5", "sha1WithRSAEncryption" }, { "1.2.840.113549.1.1.7", "rsaOAEP" }, { "1.2.840.113549.1.1.8", "rsaOAEP-MGF" }, { "1.2.840.113549.1.1.9", "rsaOAEP-pSpecified" }, { "1.2.840.113549.1.1.10", "rsaPSS" }, { "1.2.840.113549.1.1.11", "sha256WithRSAEncryption" }, { "1.2.840.113549.1.1.12", "sha384WithRSAEncryption" }, { "1.2.840.113549.1.1.13", "sha512WithRSAEncryption" }, { "1.3.14.3.2.26", "sha1" }, { "1.3.14.3.2.29", "sha-1WithRSAEncryption" }, { "1.3.36.3.3.1.2", "rsaSignatureWithripemd160" }, /* Telesec extensions. */ { "0.2.262.1.10.12.0", "certExtensionLiabilityLimitationExt" }, { "0.2.262.1.10.12.1", "telesecCertIdExt" }, { "0.2.262.1.10.12.2", "telesecPolicyIdentifier" }, { "0.2.262.1.10.12.3", "telesecPolicyQualifierID" }, { "0.2.262.1.10.12.4", "telesecCRLFilteredExt" }, { "0.2.262.1.10.12.5", "telesecCRLFilterExt"}, { "0.2.262.1.10.12.6", "telesecNamingAuthorityExt" }, #define OIDSTR_restriction \ "1.3.36.8.3.8" { OIDSTR_restriction, "restriction", OID_FLAG_UTF8 }, /* PKIX private extensions. */ { "1.3.6.1.5.5.7.1.1", "authorityInfoAccess" }, { "1.3.6.1.5.5.7.1.2", "biometricInfo" }, { "1.3.6.1.5.5.7.1.3", "qcStatements" }, { "1.3.6.1.5.5.7.1.4", "acAuditIdentity" }, { "1.3.6.1.5.5.7.1.5", "acTargeting" }, { "1.3.6.1.5.5.7.1.6", "acAaControls" }, { "1.3.6.1.5.5.7.1.7", "sbgp-ipAddrBlock" }, { "1.3.6.1.5.5.7.1.8", "sbgp-autonomousSysNum" }, { "1.3.6.1.5.5.7.1.9", "sbgp-routerIdentifier" }, { "1.3.6.1.5.5.7.1.10", "acProxying" }, { "1.3.6.1.5.5.7.1.11", "subjectInfoAccess" }, { "1.3.6.1.5.5.7.48.1", "ocsp" }, { "1.3.6.1.5.5.7.48.2", "caIssuers" }, { "1.3.6.1.5.5.7.48.3", "timeStamping" }, { "1.3.6.1.5.5.7.48.5", "caRepository" }, /* X.509 id-ce */ { "2.5.29.14", "subjectKeyIdentifier", OID_FLAG_SKIP}, { "2.5.29.15", "keyUsage", OID_FLAG_SKIP}, { "2.5.29.16", "privateKeyUsagePeriod" }, { "2.5.29.17", "subjectAltName", OID_FLAG_SKIP}, { "2.5.29.18", "issuerAltName", OID_FLAG_SKIP}, { "2.5.29.19", "basicConstraints", OID_FLAG_SKIP}, { "2.5.29.20", "cRLNumber" }, { "2.5.29.21", "cRLReason" }, { "2.5.29.22", "expirationDate" }, { "2.5.29.23", "instructionCode" }, { "2.5.29.24", "invalidityDate" }, { "2.5.29.27", "deltaCRLIndicator" }, { "2.5.29.28", "issuingDistributionPoint" }, { "2.5.29.29", "certificateIssuer" }, { "2.5.29.30", "nameConstraints" }, { "2.5.29.31", "cRLDistributionPoints", OID_FLAG_SKIP}, { "2.5.29.32", "certificatePolicies", OID_FLAG_SKIP}, { "2.5.29.32.0", "anyPolicy" }, { "2.5.29.33", "policyMappings" }, { "2.5.29.35", "authorityKeyIdentifier", OID_FLAG_SKIP}, { "2.5.29.36", "policyConstraints" }, { "2.5.29.37", "extKeyUsage", OID_FLAG_SKIP}, { "2.5.29.46", "freshestCRL" }, { "2.5.29.54", "inhibitAnyPolicy" }, /* Netscape certificate extensions. */ { "2.16.840.1.113730.1.1", "netscape-cert-type" }, { "2.16.840.1.113730.1.2", "netscape-base-url" }, { "2.16.840.1.113730.1.3", "netscape-revocation-url" }, { "2.16.840.1.113730.1.4", "netscape-ca-revocation-url" }, { "2.16.840.1.113730.1.7", "netscape-cert-renewal-url" }, { "2.16.840.1.113730.1.8", "netscape-ca-policy-url" }, { "2.16.840.1.113730.1.9", "netscape-homePage-url" }, { "2.16.840.1.113730.1.10", "netscape-entitylogo" }, { "2.16.840.1.113730.1.11", "netscape-userPicture" }, { "2.16.840.1.113730.1.12", "netscape-ssl-server-name" }, { "2.16.840.1.113730.1.13", "netscape-comment" }, /* GnuPG extensions */ { "1.3.6.1.4.1.11591.2.1.1", "pkaAddress" }, { "1.3.6.1.4.1.11591.2.2.1", "standaloneCertificate" }, { "1.3.6.1.4.1.11591.2.2.2", "wellKnownPrivateKey" }, /* Extensions used by the Bundesnetzagentur. */ { "1.3.6.1.4.1.8301.3.5", "validityModel" }, /* Yubikey extensions for attestation certificates. */ { "1.3.6.1.4.1.41482.3.3", "yubikey-firmware-version", OID_FLAG_HEX }, { "1.3.6.1.4.1.41482.3.7", "yubikey-serial-number", OID_FLAG_HEX }, { "1.3.6.1.4.1.41482.3.8", "yubikey-pin-touch-policy", OID_FLAG_HEX }, { "1.3.6.1.4.1.41482.3.9", "yubikey-formfactor", OID_FLAG_HEX }, { NULL } }; /* Return the description for OID; if no description is available NULL is returned. */ static const char * get_oid_desc (const char *oid, unsigned int *flag) { int i; if (oid) for (i=0; oidtranstbl[i].oid; i++) if (!strcmp (oidtranstbl[i].oid, oid)) { if (flag) *flag = oidtranstbl[i].flag; return oidtranstbl[i].name; } if (flag) *flag = 0; return NULL; } static void print_key_data (ksba_cert_t cert, estream_t fp) { #if 0 int n = pk ? pubkey_get_npkey( pk->pubkey_algo ) : 0; int i; for(i=0; i < n; i++ ) { es_fprintf (fp, "pkd:%d:%u:", i, mpi_get_nbits( pk->pkey[i] ) ); mpi_print(stdout, pk->pkey[i], 1 ); putchar(':'); putchar('\n'); } #else (void)cert; (void)fp; #endif } static void print_capabilities (ksba_cert_t cert, int algo, estream_t fp) { gpg_error_t err; unsigned int use; unsigned int is_encr, is_sign, is_cert; size_t buflen; char buffer[1]; err = ksba_cert_get_user_data (cert, "is_qualified", &buffer, sizeof (buffer), &buflen); if (!err && buflen) { if (*buffer) es_putc ('q', fp); } else if (gpg_err_code (err) == GPG_ERR_NOT_FOUND) ; /* Don't know - will not get marked as 'q' */ else log_debug ("get_user_data(is_qualified) failed: %s\n", gpg_strerror (err)); err = ksba_cert_get_key_usage (cert, &use); if (gpg_err_code (err) == GPG_ERR_NO_DATA) { es_putc ('e', fp); es_putc ('s', fp); es_putc ('c', fp); es_putc ('E', fp); es_putc ('S', fp); es_putc ('C', fp); return; } if (err) { log_error (_("error getting key usage information: %s\n"), gpg_strerror (err)); return; } is_encr = is_sign = is_cert = 0; if ((use & (KSBA_KEYUSAGE_KEY_ENCIPHERMENT|KSBA_KEYUSAGE_DATA_ENCIPHERMENT))) is_encr = 1; if ((use & (KSBA_KEYUSAGE_DIGITAL_SIGNATURE|KSBA_KEYUSAGE_NON_REPUDIATION))) is_sign = 1; if ((use & KSBA_KEYUSAGE_KEY_CERT_SIGN)) is_cert = 1; /* We need to returned the faked key usage to frontends so that they * can select the right key. Note that we don't do this for the * human readable keyUsage. */ if ((algo == GCRY_PK_ECC || (opt.compat_flags & COMPAT_ALLOW_KA_TO_ENCR)) && (use & KSBA_KEYUSAGE_KEY_AGREEMENT)) is_encr = 1; if (is_encr) es_putc ('e', fp); if (is_sign) es_putc ('s', fp); if (is_cert) es_putc ('c', fp); if (is_encr) es_putc ('E', fp); if (is_sign) es_putc ('S', fp); if (is_cert) es_putc ('C', fp); } static void print_time (gnupg_isotime_t t, estream_t fp) { if (!t || !*t) ; else es_fputs (t, fp); } /* Return an allocated string with the email address extracted from a DN. Note hat we use this code also in ../kbx/keybox-blob.c. */ static char * email_kludge (const char *name) { const char *p, *string; unsigned char *buf; int n; string = name; for (;;) { p = strstr (string, "1.2.840.113549.1.9.1=#"); if (!p) return NULL; if (p == name || (p > string+1 && p[-1] == ',' && p[-2] != '\\')) { name = p + 22; break; } string = p + 22; } /* This looks pretty much like an email address in the subject's DN we use this to add an additional user ID entry. This way, OpenSSL generated keys get a nicer and usable listing. */ for (n=0, p=name; hexdigitp (p) && hexdigitp (p+1); p +=2, n++) ; if (!n) return NULL; buf = xtrymalloc (n+3); if (!buf) return NULL; /* oops, out of core */ *buf = '<'; for (n=1, p=name; hexdigitp (p); p +=2, n++) buf[n] = xtoi_2 (p); buf[n++] = '>'; buf[n] = 0; return (char*)buf; } /* Print the compliance flags to field 18. ALGO is the gcrypt algo * number. NBITS is the length of the key in bits. */ static void print_compliance_flags (ksba_cert_t cert, int algo, unsigned int nbits, estream_t fp) { int hashalgo; /* Note that we do not need to test for PK_ALGO_FLAG_RSAPSS because * that is not a property of the key but one of the created * signature. */ if (gnupg_pk_is_compliant (CO_DE_VS, algo, 0, NULL, nbits, NULL)) { hashalgo = gcry_md_map_name (ksba_cert_get_digest_algo (cert)); if (gnupg_digest_is_compliant (CO_DE_VS, hashalgo)) { es_fputs (gnupg_status_compliance_flag (CO_DE_VS), fp); } } } /* List one certificate in colon mode */ static void list_cert_colon (ctrl_t ctrl, ksba_cert_t cert, unsigned int validity, estream_t fp, int have_secret) { int rc; int idx; char truststring[2]; char *p; ksba_sexp_t sexp; char *fpr; ksba_isotime_t t; gpg_error_t valerr; int algo; unsigned int nbits; char *curve = NULL; const char *chain_id; char *chain_id_buffer = NULL; int is_root = 0; char *kludge_uid; if (ctrl->with_validation) valerr = gpgsm_validate_chain (ctrl, cert, "", NULL, 1, NULL, 0, NULL); else valerr = 0; /* We need to get the fingerprint and the chaining ID in advance. */ fpr = gpgsm_get_fingerprint_hexstring (cert, GCRY_MD_SHA1); { ksba_cert_t next; rc = gpgsm_walk_cert_chain (ctrl, cert, &next); if (!rc) /* We known the issuer's certificate. */ { p = gpgsm_get_fingerprint_hexstring (next, GCRY_MD_SHA1); chain_id_buffer = p; chain_id = chain_id_buffer; ksba_cert_release (next); } - else if (rc == -1) /* We have reached the root certificate. */ + else if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) { + /* We have reached the root certificate. */ chain_id = fpr; is_root = 1; } else chain_id = NULL; } es_fputs (have_secret? "crs:":"crt:", fp); /* Note: We can't use multiple flags, like "ei", because the validation check does only return one error. */ truststring[0] = 0; truststring[1] = 0; if ((validity & VALIDITY_REVOKED) || gpg_err_code (valerr) == GPG_ERR_CERT_REVOKED) *truststring = 'r'; else if (gpg_err_code (valerr) == GPG_ERR_CERT_EXPIRED) *truststring = 'e'; else { /* Lets also check whether the certificate under question expired. This is merely a hack until we found a proper way to store the expiration flag in the keybox. */ ksba_isotime_t current_time, not_after; gnupg_get_isotime (current_time); if (!opt.ignore_expiration && !ksba_cert_get_validity (cert, 1, not_after) && *not_after && strcmp (current_time, not_after) > 0 ) *truststring = 'e'; else if (valerr) { if (gpgsm_cert_has_well_known_private_key (cert)) *truststring = 'w'; /* Well, this is dummy CA. */ else *truststring = 'i'; } else if (ctrl->with_validation && !is_root) *truststring = 'f'; } /* If we have no truststring yet (i.e. the certificate might be good) and this is a root certificate, we ask the agent whether this is a trusted root certificate. */ if (!*truststring && is_root) { struct rootca_flags_s dummy_flags; if (gpgsm_cert_has_well_known_private_key (cert)) *truststring = 'w'; /* Well, this is dummy CA. */ else { rc = gpgsm_agent_istrusted (ctrl, cert, NULL, &dummy_flags); if (!rc) *truststring = 'u'; /* Yes, we trust this one (ultimately). */ else if (gpg_err_code (rc) == GPG_ERR_NOT_TRUSTED) *truststring = 'n'; /* No, we do not trust this one. */ /* (in case of an error we can't tell anything.) */ } } if (*truststring) es_fputs (truststring, fp); algo = gpgsm_get_key_algo_info2 (cert, &nbits, &curve); es_fprintf (fp, ":%u:%d:%s:", nbits, algo, fpr+24); ksba_cert_get_validity (cert, 0, t); print_time (t, fp); es_putc (':', fp); ksba_cert_get_validity (cert, 1, t); print_time ( t, fp); es_putc (':', fp); /* Field 8, serial number: */ if ((sexp = ksba_cert_get_serial (cert))) { int len; const unsigned char *s = sexp; if (*s == '(') { s++; for (len=0; *s && *s != ':' && digitp (s); s++) len = len*10 + atoi_1 (s); if (*s == ':') for (s++; len; len--, s++) es_fprintf (fp,"%02X", *s); } xfree (sexp); } es_putc (':', fp); /* Field 9, ownertrust - not used here */ es_putc (':', fp); /* field 10, old user ID - we use it here for the issuer DN */ if ((p = ksba_cert_get_issuer (cert,0))) { es_write_sanitized (fp, p, strlen (p), ":", NULL); xfree (p); } es_putc (':', fp); /* Field 11, signature class - not used */ es_putc (':', fp); /* Field 12, capabilities: */ print_capabilities (cert, algo, fp); es_putc (':', fp); /* Field 13, not used: */ es_putc (':', fp); /* Field 14, not used: */ es_putc (':', fp); if (have_secret || ctrl->with_secret) { char *cardsn; p = gpgsm_get_keygrip_hexstring (cert); if (!gpgsm_agent_keyinfo (ctrl, p, &cardsn) && (cardsn || ctrl->with_secret)) { /* Field 15: Token serial number or secret key indicator. */ if (cardsn) es_fputs (cardsn, fp); else if (ctrl->with_secret) es_putc ('+', fp); } xfree (cardsn); xfree (p); } es_putc (':', fp); /* End of field 15. */ es_putc (':', fp); /* End of field 16. */ if (curve) es_fputs (curve, fp); es_putc (':', fp); /* End of field 17. */ print_compliance_flags (cert, algo, nbits, fp); es_putc (':', fp); /* End of field 18. */ es_putc ('\n', fp); /* FPR record */ es_fprintf (fp, "fpr:::::::::%s:::", fpr); /* Print chaining ID (field 13)*/ if (chain_id) es_fputs (chain_id, fp); es_putc (':', fp); es_putc ('\n', fp); xfree (fpr); fpr = NULL; chain_id = NULL; xfree (chain_id_buffer); chain_id_buffer = NULL; /* SHA256 FPR record */ fpr = gpgsm_get_fingerprint_hexstring (cert, GCRY_MD_SHA256); es_fprintf (fp, "fp2:::::::::%s::::\n", fpr); xfree (fpr); fpr = NULL; /* Always print the keygrip. */ if ( (p = gpgsm_get_keygrip_hexstring (cert))) { es_fprintf (fp, "grp:::::::::%s:\n", p); xfree (p); } if (opt.with_key_data) print_key_data (cert, fp); kludge_uid = NULL; for (idx=0; (p = ksba_cert_get_subject (cert,idx)); idx++) { /* In the case that the same email address is in the subject DN as well as in an alternate subject name we avoid printing it a second time. */ if (kludge_uid && !strcmp (kludge_uid, p)) continue; es_fprintf (fp, "uid:%s::::::::", truststring); es_write_sanitized (fp, p, strlen (p), ":", NULL); es_putc (':', fp); es_putc (':', fp); es_putc ('\n', fp); if (!idx) { /* It would be better to get the faked email address from the keydb. But as long as we don't have a way to pass the meta data back, we just check it the same way as the code used to create the keybox meta data does */ kludge_uid = email_kludge (p); if (kludge_uid) { es_fprintf (fp, "uid:%s::::::::", truststring); es_write_sanitized (fp, kludge_uid, strlen (kludge_uid), ":", NULL); es_putc (':', fp); es_putc (':', fp); es_putc ('\n', fp); } } xfree (p); } xfree (kludge_uid); xfree (curve); } static void print_name_raw (estream_t fp, const char *string) { if (!string) es_fputs ("[error]", fp); else es_write_sanitized (fp, string, strlen (string), NULL, NULL); } static void print_names_raw (estream_t fp, int indent, ksba_name_t name) { int idx; const char *s; int indent_all; if ((indent_all = (indent < 0))) indent = - indent; if (!name) { es_fputs ("none\n", fp); return; } for (idx=0; (s = ksba_name_enum (name, idx)); idx++) { char *p = ksba_name_get_uri (name, idx); es_fprintf (fp, "%*s", idx||indent_all?indent:0, ""); es_write_sanitized (fp, p?p:s, strlen (p?p:s), NULL, NULL); es_putc ('\n', fp); xfree (p); } } static void print_utf8_extn_raw (estream_t fp, int indent, const unsigned char *der, size_t derlen) { gpg_error_t err; int class, tag, constructed, ndef; size_t objlen, hdrlen; if (indent < 0) indent = - indent; err = parse_ber_header (&der, &derlen, &class, &tag, &constructed, &ndef, &objlen, &hdrlen); if (!err && (objlen > derlen || tag != TAG_UTF8_STRING)) err = gpg_error (GPG_ERR_INV_OBJ); if (err) { es_fprintf (fp, "%*s[%s]\n", indent, "", gpg_strerror (err)); return; } es_fprintf (fp, "%*s(%.*s)\n", indent, "", (int)objlen, der); } static void print_utf8_extn (estream_t fp, int indent, const unsigned char *der, size_t derlen) { gpg_error_t err; int class, tag, constructed, ndef; size_t objlen, hdrlen; int indent_all; if ((indent_all = (indent < 0))) indent = - indent; err = parse_ber_header (&der, &derlen, &class, &tag, &constructed, &ndef, &objlen, &hdrlen); if (!err && (objlen > derlen || tag != TAG_UTF8_STRING)) err = gpg_error (GPG_ERR_INV_OBJ); if (err) { es_fprintf (fp, "%*s[%s%s]\n", indent_all? indent:0, "", _("Error - "), gpg_strerror (err)); return; } es_fprintf (fp, "%*s\"", indent_all? indent:0, ""); /* Fixme: we should implement word wrapping */ es_write_sanitized (fp, der, objlen, "\"", NULL); es_fputs ("\"\n", fp); } /* Print the extension described by (DER,DERLEN) in hex. */ static void print_hex_extn (estream_t fp, int indent, const unsigned char *der, size_t derlen) { if (indent < 0) indent = - indent; es_fprintf (fp, "%*s(", indent, ""); for (; derlen; der++, derlen--) es_fprintf (fp, "%02X%s", *der, derlen > 1? " ":""); es_fprintf (fp, ")\n"); } /* List one certificate in raw mode useful to have a closer look at the certificate. This one does no beautification and only minimal output sanitation. It is mainly useful for debugging. */ static void list_cert_raw (ctrl_t ctrl, KEYDB_HANDLE hd, ksba_cert_t cert, estream_t fp, int have_secret, int with_validation) { gpg_error_t err; size_t off, len; ksba_sexp_t sexp, keyid; char *dn; ksba_isotime_t t; int idx, i; int is_ca, chainlen; unsigned int kusage; char *string, *p, *pend; const char *oid, *s; ksba_name_t name, name2; unsigned int reason; const unsigned char *cert_der = NULL; (void)have_secret; es_fprintf (fp, " ID: 0x%08lX\n", gpgsm_get_short_fingerprint (cert, NULL)); sexp = ksba_cert_get_serial (cert); es_fputs (" S/N: ", fp); gpgsm_print_serial (fp, sexp); es_putc ('\n', fp); es_fputs (" (dec): ", fp); gpgsm_print_serial_decimal (fp, sexp); es_putc ('\n', fp); ksba_free (sexp); dn = ksba_cert_get_issuer (cert, 0); es_fputs (" Issuer: ", fp); print_name_raw (fp, dn); ksba_free (dn); es_putc ('\n', fp); for (idx=1; (dn = ksba_cert_get_issuer (cert, idx)); idx++) { es_fputs (" aka: ", fp); print_name_raw (fp, dn); ksba_free (dn); es_putc ('\n', fp); } dn = ksba_cert_get_subject (cert, 0); es_fputs (" Subject: ", fp); print_name_raw (fp, dn); ksba_free (dn); es_putc ('\n', fp); for (idx=1; (dn = ksba_cert_get_subject (cert, idx)); idx++) { es_fputs (" aka: ", fp); print_name_raw (fp, dn); ksba_free (dn); es_putc ('\n', fp); } dn = gpgsm_get_fingerprint_string (cert, GCRY_MD_SHA256); es_fprintf (fp, " sha2_fpr: %s\n", dn?dn:"error"); xfree (dn); dn = gpgsm_get_fingerprint_string (cert, 0); es_fprintf (fp, " sha1_fpr: %s\n", dn?dn:"error"); xfree (dn); dn = gpgsm_get_fingerprint_string (cert, GCRY_MD_MD5); es_fprintf (fp, " md5_fpr: %s\n", dn?dn:"error"); xfree (dn); dn = gpgsm_get_certid (cert); es_fprintf (fp, " certid: %s\n", dn?dn:"error"); xfree (dn); dn = gpgsm_get_keygrip_hexstring (cert); es_fprintf (fp, " keygrip: %s\n", dn?dn:"error"); xfree (dn); ksba_cert_get_validity (cert, 0, t); es_fputs (" notBefore: ", fp); gpgsm_print_time (fp, t); es_putc ('\n', fp); es_fputs (" notAfter: ", fp); ksba_cert_get_validity (cert, 1, t); gpgsm_print_time (fp, t); es_putc ('\n', fp); oid = ksba_cert_get_digest_algo (cert); s = get_oid_desc (oid, NULL); es_fprintf (fp, " hashAlgo: %s%s%s%s\n", oid, s?" (":"",s?s:"",s?")":""); { char *algostr; algostr = gpgsm_pubkey_algo_string (cert, NULL); es_fprintf (fp, " keyType: %s\n", algostr? algostr : "[error]"); xfree (algostr); } /* subjectKeyIdentifier */ es_fputs (" subjKeyId: ", fp); err = ksba_cert_get_subj_key_id (cert, NULL, &keyid); if (!err || gpg_err_code (err) == GPG_ERR_NO_DATA) { if (gpg_err_code (err) == GPG_ERR_NO_DATA) es_fputs ("[none]\n", fp); else { gpgsm_print_serial (fp, keyid); ksba_free (keyid); es_putc ('\n', fp); } } else es_fputs ("[?]\n", fp); /* authorityKeyIdentifier */ es_fputs (" authKeyId: ", fp); err = ksba_cert_get_auth_key_id (cert, &keyid, &name, &sexp); if (!err || gpg_err_code (err) == GPG_ERR_NO_DATA) { if (gpg_err_code (err) == GPG_ERR_NO_DATA || !name) es_fputs ("[none]\n", fp); else { gpgsm_print_serial (fp, sexp); ksba_free (sexp); es_putc ('\n', fp); print_names_raw (fp, -15, name); ksba_name_release (name); } if (keyid) { es_fputs (" authKeyId.ki: ", fp); gpgsm_print_serial (fp, keyid); ksba_free (keyid); es_putc ('\n', fp); } } else es_fputs ("[?]\n", fp); es_fputs (" keyUsage:", fp); err = ksba_cert_get_key_usage (cert, &kusage); if (gpg_err_code (err) != GPG_ERR_NO_DATA) { if (err) es_fprintf (fp, " [error: %s]", gpg_strerror (err)); else { if ( (kusage & KSBA_KEYUSAGE_DIGITAL_SIGNATURE)) es_fputs (" digitalSignature", fp); if ( (kusage & KSBA_KEYUSAGE_NON_REPUDIATION)) es_fputs (" nonRepudiation", fp); if ( (kusage & KSBA_KEYUSAGE_KEY_ENCIPHERMENT)) es_fputs (" keyEncipherment", fp); if ( (kusage & KSBA_KEYUSAGE_DATA_ENCIPHERMENT)) es_fputs (" dataEncipherment", fp); if ( (kusage & KSBA_KEYUSAGE_KEY_AGREEMENT)) es_fputs (" keyAgreement", fp); if ( (kusage & KSBA_KEYUSAGE_KEY_CERT_SIGN)) es_fputs (" certSign", fp); if ( (kusage & KSBA_KEYUSAGE_CRL_SIGN)) es_fputs (" crlSign", fp); if ( (kusage & KSBA_KEYUSAGE_ENCIPHER_ONLY)) es_fputs (" encipherOnly", fp); if ( (kusage & KSBA_KEYUSAGE_DECIPHER_ONLY)) es_fputs (" decipherOnly", fp); } es_putc ('\n', fp); } else es_fputs (" [none]\n", fp); es_fputs (" extKeyUsage: ", fp); err = ksba_cert_get_ext_key_usages (cert, &string); if (gpg_err_code (err) != GPG_ERR_NO_DATA) { if (err) es_fprintf (fp, "[error: %s]", gpg_strerror (err)); else { p = string; while (p && (pend=strchr (p, ':'))) { *pend++ = 0; for (i=0; key_purpose_map[i].oid; i++) if ( !strcmp (key_purpose_map[i].oid, p) ) break; es_fputs (key_purpose_map[i].oid?key_purpose_map[i].name:p, fp); p = pend; if (*p != 'C') es_fputs (" (suggested)", fp); if ((p = strchr (p, '\n'))) { p++; es_fputs ("\n ", fp); } } xfree (string); } es_putc ('\n', fp); } else es_fputs ("[none]\n", fp); es_fputs (" policies: ", fp); err = ksba_cert_get_cert_policies (cert, &string); if (gpg_err_code (err) != GPG_ERR_NO_DATA) { if (err) es_fprintf (fp, "[error: %s]", gpg_strerror (err)); else { p = string; while (p && (pend=strchr (p, ':'))) { *pend++ = 0; for (i=0; key_purpose_map[i].oid; i++) if ( !strcmp (key_purpose_map[i].oid, p) ) break; es_fputs (p, fp); p = pend; if (*p == 'C') es_fputs (" (critical)", fp); if ((p = strchr (p, '\n'))) { p++; es_fputs ("\n ", fp); } } xfree (string); } es_putc ('\n', fp); } else es_fputs ("[none]\n", fp); es_fputs (" chainLength: ", fp); err = ksba_cert_is_ca (cert, &is_ca, &chainlen); if (err || is_ca) { if (gpg_err_code (err) == GPG_ERR_NO_VALUE ) es_fprintf (fp, "[none]"); else if (err) es_fprintf (fp, "[error: %s]", gpg_strerror (err)); else if (chainlen == -1) es_fputs ("unlimited", fp); else es_fprintf (fp, "%d", chainlen); es_putc ('\n', fp); } else es_fputs ("not a CA\n", fp); /* CRL distribution point */ for (idx=0; !(err=ksba_cert_get_crl_dist_point (cert, idx, &name, &name2, &reason)) ;idx++) { es_fputs (" crlDP: ", fp); print_names_raw (fp, 15, name); if (reason) { es_fputs (" reason: ", fp); if ( (reason & KSBA_CRLREASON_UNSPECIFIED)) es_fputs (" unused", fp); if ( (reason & KSBA_CRLREASON_KEY_COMPROMISE)) es_fputs (" keyCompromise", fp); if ( (reason & KSBA_CRLREASON_CA_COMPROMISE)) es_fputs (" caCompromise", fp); if ( (reason & KSBA_CRLREASON_AFFILIATION_CHANGED)) es_fputs (" affiliationChanged", fp); if ( (reason & KSBA_CRLREASON_SUPERSEDED)) es_fputs (" superseded", fp); if ( (reason & KSBA_CRLREASON_CESSATION_OF_OPERATION)) es_fputs (" cessationOfOperation", fp); if ( (reason & KSBA_CRLREASON_CERTIFICATE_HOLD)) es_fputs (" certificateHold", fp); es_putc ('\n', fp); } es_fputs (" issuer: ", fp); print_names_raw (fp, 23, name2); ksba_name_release (name); ksba_name_release (name2); } if (err && gpg_err_code (err) != GPG_ERR_EOF && gpg_err_code (err) != GPG_ERR_NO_VALUE) es_fputs (" crlDP: [error]\n", fp); else if (!idx) es_fputs (" crlDP: [none]\n", fp); /* authorityInfoAccess. */ for (idx=0; !(err=ksba_cert_get_authority_info_access (cert, idx, &string, &name)); idx++) { es_fputs (" authInfo: ", fp); s = get_oid_desc (string, NULL); es_fprintf (fp, "%s%s%s%s\n", string, s?" (":"", s?s:"", s?")":""); print_names_raw (fp, -15, name); ksba_name_release (name); ksba_free (string); } if (err && gpg_err_code (err) != GPG_ERR_EOF && gpg_err_code (err) != GPG_ERR_NO_VALUE) es_fputs (" authInfo: [error]\n", fp); else if (!idx) es_fputs (" authInfo: [none]\n", fp); /* subjectInfoAccess. */ for (idx=0; !(err=ksba_cert_get_subject_info_access (cert, idx, &string, &name)); idx++) { es_fputs (" subjectInfo: ", fp); s = get_oid_desc (string, NULL); es_fprintf (fp, "%s%s%s%s\n", string, s?" (":"", s?s:"", s?")":""); print_names_raw (fp, -15, name); ksba_name_release (name); ksba_free (string); } if (err && gpg_err_code (err) != GPG_ERR_EOF && gpg_err_code (err) != GPG_ERR_NO_VALUE) es_fputs (" subjInfo: [error]\n", fp); else if (!idx) es_fputs (" subjInfo: [none]\n", fp); for (idx=0; !(err=ksba_cert_get_extension (cert, idx, &oid, &i, &off, &len));idx++) { unsigned int flag; s = get_oid_desc (oid, &flag); if ((flag & OID_FLAG_SKIP)) continue; es_fprintf (fp, " %s: %s%s%s%s", i? "critExtn":" extn", oid, s?" (":"", s?s:"", s?")":""); if ((flag & OID_FLAG_UTF8)) { if (!cert_der) cert_der = ksba_cert_get_image (cert, NULL); log_assert (cert_der); es_fprintf (fp, "\n"); print_utf8_extn_raw (fp, -15, cert_der+off, len); } else if ((flag & OID_FLAG_HEX)) { if (!cert_der) cert_der = ksba_cert_get_image (cert, NULL); log_assert (cert_der); es_fprintf (fp, "\n"); print_hex_extn (fp, -15, cert_der+off, len); } else es_fprintf (fp, " [%d octets]\n", (int)len); } if (with_validation) { err = gpgsm_validate_chain (ctrl, cert, "", NULL, 1, fp, 0, NULL); if (!err) es_fprintf (fp, " [certificate is good]\n"); else es_fprintf (fp, " [certificate is bad: %s]\n", gpg_strerror (err)); } if (hd) { unsigned int blobflags; err = keydb_get_flags (hd, KEYBOX_FLAG_BLOB, 0, &blobflags); if (err) es_fprintf (fp, " [error getting keyflags: %s]\n",gpg_strerror (err)); else if ((blobflags & KEYBOX_FLAG_BLOB_EPHEMERAL)) es_fprintf (fp, " [stored as ephemeral]\n"); } } /* List one certificate in standard mode */ static void list_cert_std (ctrl_t ctrl, ksba_cert_t cert, estream_t fp, int have_secret, int with_validation) { gpg_error_t err; ksba_sexp_t sexp; char *dn; ksba_isotime_t t; int idx, i; int is_ca, chainlen; unsigned int kusage; char *string, *p, *pend; size_t off, len; const char *oid; const unsigned char *cert_der = NULL; es_fprintf (fp, " ID: 0x%08lX\n", gpgsm_get_short_fingerprint (cert, NULL)); sexp = ksba_cert_get_serial (cert); es_fputs (" S/N: ", fp); gpgsm_print_serial (fp, sexp); es_putc ('\n', fp); es_fputs (" (dec): ", fp); gpgsm_print_serial_decimal (fp, sexp); es_putc ('\n', fp); ksba_free (sexp); dn = ksba_cert_get_issuer (cert, 0); es_fputs (" Issuer: ", fp); gpgsm_es_print_name (fp, dn); ksba_free (dn); es_putc ('\n', fp); for (idx=1; (dn = ksba_cert_get_issuer (cert, idx)); idx++) { es_fputs (" aka: ", fp); gpgsm_es_print_name (fp, dn); ksba_free (dn); es_putc ('\n', fp); } dn = ksba_cert_get_subject (cert, 0); es_fputs (" Subject: ", fp); gpgsm_es_print_name (fp, dn); ksba_free (dn); es_putc ('\n', fp); for (idx=1; (dn = ksba_cert_get_subject (cert, idx)); idx++) { es_fputs (" aka: ", fp); gpgsm_es_print_name (fp, dn); ksba_free (dn); es_putc ('\n', fp); } ksba_cert_get_validity (cert, 0, t); es_fputs (" validity: ", fp); gpgsm_print_time (fp, t); es_fputs (" through ", fp); ksba_cert_get_validity (cert, 1, t); gpgsm_print_time (fp, t); es_putc ('\n', fp); { char *algostr; algostr = gpgsm_pubkey_algo_string (cert, NULL); es_fprintf (fp, " key type: %s\n", algostr? algostr : "[error]"); xfree (algostr); } err = ksba_cert_get_key_usage (cert, &kusage); if (gpg_err_code (err) != GPG_ERR_NO_DATA) { es_fputs (" key usage:", fp); if (err) es_fprintf (fp, " [error: %s]", gpg_strerror (err)); else { if ( (kusage & KSBA_KEYUSAGE_DIGITAL_SIGNATURE)) es_fputs (" digitalSignature", fp); if ( (kusage & KSBA_KEYUSAGE_NON_REPUDIATION)) es_fputs (" nonRepudiation", fp); if ( (kusage & KSBA_KEYUSAGE_KEY_ENCIPHERMENT)) es_fputs (" keyEncipherment", fp); if ( (kusage & KSBA_KEYUSAGE_DATA_ENCIPHERMENT)) es_fputs (" dataEncipherment", fp); if ( (kusage & KSBA_KEYUSAGE_KEY_AGREEMENT)) es_fputs (" keyAgreement", fp); if ( (kusage & KSBA_KEYUSAGE_KEY_CERT_SIGN)) es_fputs (" certSign", fp); if ( (kusage & KSBA_KEYUSAGE_CRL_SIGN)) es_fputs (" crlSign", fp); if ( (kusage & KSBA_KEYUSAGE_ENCIPHER_ONLY)) es_fputs (" encipherOnly", fp); if ( (kusage & KSBA_KEYUSAGE_DECIPHER_ONLY)) es_fputs (" decipherOnly", fp); } es_putc ('\n', fp); } err = ksba_cert_get_ext_key_usages (cert, &string); if (gpg_err_code (err) != GPG_ERR_NO_DATA) { es_fputs ("ext key usage: ", fp); if (err) es_fprintf (fp, "[error: %s]", gpg_strerror (err)); else { p = string; while (p && (pend=strchr (p, ':'))) { *pend++ = 0; for (i=0; key_purpose_map[i].oid; i++) if ( !strcmp (key_purpose_map[i].oid, p) ) break; es_fputs (key_purpose_map[i].oid?key_purpose_map[i].name:p, fp); p = pend; if (*p != 'C') es_fputs (" (suggested)", fp); if ((p = strchr (p, '\n'))) { p++; es_fputs (", ", fp); } } xfree (string); } es_putc ('\n', fp); } /* Print restrictions. */ for (idx=0; !(err=ksba_cert_get_extension (cert, idx, &oid, NULL, &off, &len));idx++) { if (!strcmp (oid, OIDSTR_restriction) ) { if (!cert_der) cert_der = ksba_cert_get_image (cert, NULL); assert (cert_der); es_fputs (" restriction: ", fp); print_utf8_extn (fp, 15, cert_der+off, len); } } /* Print policies. */ err = ksba_cert_get_cert_policies (cert, &string); if (gpg_err_code (err) != GPG_ERR_NO_DATA) { es_fputs (" policies: ", fp); if (err) es_fprintf (fp, "[error: %s]", gpg_strerror (err)); else { for (p=string; *p; p++) { if (*p == '\n') *p = ','; } es_write_sanitized (fp, string, strlen (string), NULL, NULL); xfree (string); } es_putc ('\n', fp); } err = ksba_cert_is_ca (cert, &is_ca, &chainlen); if (err || is_ca) { es_fputs (" chain length: ", fp); if (gpg_err_code (err) == GPG_ERR_NO_VALUE ) es_fprintf (fp, "none"); else if (err) es_fprintf (fp, "[error: %s]", gpg_strerror (err)); else if (chainlen == -1) es_fputs ("unlimited", fp); else es_fprintf (fp, "%d", chainlen); es_putc ('\n', fp); } if (opt.with_md5_fingerprint) { dn = gpgsm_get_fingerprint_string (cert, GCRY_MD_MD5); es_fprintf (fp, " md5 fpr: %s\n", dn?dn:"error"); xfree (dn); } dn = gpgsm_get_fingerprint_string (cert, 0); es_fprintf (fp, " fingerprint: %s\n", dn?dn:"error"); xfree (dn); dn = gpgsm_get_fingerprint_string (cert, GCRY_MD_SHA256); es_fprintf (fp, " sha2 fpr: %s\n", dn?dn:"error"); xfree (dn); if (opt.with_keygrip) { dn = gpgsm_get_keygrip_hexstring (cert); if (dn) { es_fprintf (fp, " keygrip: %s\n", dn); xfree (dn); } } if (have_secret) { char *cardsn; p = gpgsm_get_keygrip_hexstring (cert); if (!gpgsm_agent_keyinfo (ctrl, p, &cardsn) && cardsn) es_fprintf (fp, " card s/n: %s\n", cardsn); xfree (cardsn); xfree (p); } if (with_validation) { gpg_error_t tmperr; size_t buflen; char buffer[1]; err = gpgsm_validate_chain (ctrl, cert, "", NULL, 1, fp, 0, NULL); tmperr = ksba_cert_get_user_data (cert, "is_qualified", &buffer, sizeof (buffer), &buflen); if (!tmperr && buflen) { if (*buffer) es_fputs (" [qualified]\n", fp); } else if (gpg_err_code (tmperr) == GPG_ERR_NOT_FOUND) ; /* Don't know - will not get marked as 'q' */ else log_debug ("get_user_data(is_qualified) failed: %s\n", gpg_strerror (tmperr)); if (!err) es_fprintf (fp, " [certificate is good]\n"); else es_fprintf (fp, " [certificate is bad: %s]\n", gpg_strerror (err)); } } /* Same as standard mode list all certifying certs too. */ static void list_cert_chain (ctrl_t ctrl, KEYDB_HANDLE hd, ksba_cert_t cert, int raw_mode, estream_t fp, int with_validation) { ksba_cert_t next = NULL; int depth = 0; if (raw_mode) list_cert_raw (ctrl, hd, cert, fp, 0, with_validation); else list_cert_std (ctrl, cert, fp, 0, with_validation); ksba_cert_ref (cert); while (!gpgsm_walk_cert_chain (ctrl, cert, &next)) { es_fputs ("Certified by\n", fp); if (++depth > 50) { es_fputs (_("certificate chain too long\n"), fp); break; } ksba_cert_release (cert); if (raw_mode) list_cert_raw (ctrl, hd, next, fp, 0, with_validation); else list_cert_std (ctrl, next, fp, 0, with_validation); cert = next; } ksba_cert_release (cert); es_putc ('\n', fp); } /* List all internal keys or just the keys given as NAMES. MODE is a bit vector to specify what keys are to be included; see gpgsm_list_keys (below) for details. If RAW_MODE is true, the raw output mode will be used instead of the standard beautified one. */ static gpg_error_t list_internal_keys (ctrl_t ctrl, strlist_t names, estream_t fp, unsigned int mode, int raw_mode) { KEYDB_HANDLE hd; KEYDB_SEARCH_DESC *desc = NULL; strlist_t sl; int ndesc; ksba_cert_t cert = NULL; ksba_cert_t lastcert = NULL; gpg_error_t rc = 0; const char *lastresname, *resname; int have_secret; int want_ephemeral = ctrl->with_ephemeral_keys; hd = keydb_new (); if (!hd) { log_error ("keydb_new failed\n"); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } if (!names) ndesc = 1; else { for (sl=names, ndesc=0; sl; sl = sl->next, ndesc++) ; } desc = xtrycalloc (ndesc, sizeof *desc); if (!ndesc) { rc = gpg_error_from_syserror (); log_error ("out of core\n"); goto leave; } if (!names) desc[0].mode = KEYDB_SEARCH_MODE_FIRST; else { for (ndesc=0, sl=names; sl; sl = sl->next) { rc = classify_user_id (sl->d, desc+ndesc, 0); if (rc) { log_error ("key '%s' not found: %s\n", sl->d, gpg_strerror (rc)); rc = 0; } else ndesc++; } } /* If all specifications are done by fingerprint or keygrip, we switch to ephemeral mode so that _all_ currently available and matching certificates are listed. */ if (!want_ephemeral && names && ndesc) { int i; for (i=0; (i < ndesc && (desc[i].mode == KEYDB_SEARCH_MODE_FPR || desc[i].mode == KEYDB_SEARCH_MODE_FPR20 || desc[i].mode == KEYDB_SEARCH_MODE_FPR16 || desc[i].mode == KEYDB_SEARCH_MODE_KEYGRIP)); i++) ; if (i == ndesc) want_ephemeral = 1; } if (want_ephemeral) keydb_set_ephemeral (hd, 1); /* It would be nice to see which of the given users did actually match one in the keyring. To implement this we need to have a found flag for each entry in desc and to set this we must check all those entries after a match to mark all matched one - currently we stop at the first match. To do this we need an extra flag to enable this feature so */ /* Suppress duplicates at least when they follow each other. */ lastresname = NULL; while (!(rc = keydb_search (ctrl, hd, desc, ndesc))) { unsigned int validity; if (!names) desc[0].mode = KEYDB_SEARCH_MODE_NEXT; rc = keydb_get_flags (hd, KEYBOX_FLAG_VALIDITY, 0, &validity); if (rc) { log_error ("keydb_get_flags failed: %s\n", gpg_strerror (rc)); goto leave; } rc = keydb_get_cert (hd, &cert); if (rc) { log_error ("keydb_get_cert failed: %s\n", gpg_strerror (rc)); goto leave; } /* Skip duplicated certificates, at least if they follow each others. This works best if a single key is searched for and expected. FIXME: Non-sequential duplicates remain. */ if (gpgsm_certs_identical_p (cert, lastcert)) { ksba_cert_release (cert); cert = NULL; continue; } resname = keydb_get_resource_name (hd); if (lastresname != resname ) { int i; if (ctrl->no_server) { es_fprintf (fp, "%s\n", resname ); for (i=strlen(resname); i; i-- ) es_putc ('-', fp); es_putc ('\n', fp); lastresname = resname; } } have_secret = 0; if (mode) { char *p = gpgsm_get_keygrip_hexstring (cert); if (p) { rc = gpgsm_agent_havekey (ctrl, p); if (!rc) have_secret = 1; else if ( gpg_err_code (rc) != GPG_ERR_NO_SECKEY) goto leave; rc = 0; xfree (p); } } if (!mode || ((mode & 1) && !have_secret) || ((mode & 2) && have_secret) ) { if (ctrl->with_colons) list_cert_colon (ctrl, cert, validity, fp, have_secret); else if (ctrl->with_chain) list_cert_chain (ctrl, hd, cert, raw_mode, fp, ctrl->with_validation); else { if (raw_mode) list_cert_raw (ctrl, hd, cert, fp, have_secret, ctrl->with_validation); else list_cert_std (ctrl, cert, fp, have_secret, ctrl->with_validation); es_putc ('\n', fp); } } ksba_cert_release (lastcert); lastcert = cert; cert = NULL; } - if (gpg_err_code (rc) == GPG_ERR_EOF || rc == -1 ) + if (gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = 0; if (rc) log_error ("keydb_search failed: %s\n", gpg_strerror (rc)); leave: ksba_cert_release (cert); ksba_cert_release (lastcert); xfree (desc); keydb_release (hd); return rc; } static void list_external_cb (void *cb_value, ksba_cert_t cert) { struct list_external_parm_s *parm = cb_value; if (keydb_store_cert (parm->ctrl, cert, 1, NULL)) log_error ("error storing certificate as ephemeral\n"); if (parm->print_header) { const char *resname = "[external keys]"; int i; es_fprintf (parm->fp, "%s\n", resname ); for (i=strlen(resname); i; i-- ) es_putc('-', parm->fp); es_putc ('\n', parm->fp); parm->print_header = 0; } if (parm->with_colons) list_cert_colon (parm->ctrl, cert, 0, parm->fp, 0); else if (parm->with_chain) list_cert_chain (parm->ctrl, NULL, cert, parm->raw_mode, parm->fp, 0); else { if (parm->raw_mode) list_cert_raw (parm->ctrl, NULL, cert, parm->fp, 0, 0); else list_cert_std (parm->ctrl, cert, parm->fp, 0, 0); es_putc ('\n', parm->fp); } } /* List external keys similar to internal one. Note: mode does not make sense here because it would be unwise to list external secret keys */ static gpg_error_t list_external_keys (ctrl_t ctrl, strlist_t names, estream_t fp, int raw_mode) { int rc; struct list_external_parm_s parm; parm.fp = fp; parm.ctrl = ctrl, parm.print_header = ctrl->no_server; parm.with_colons = ctrl->with_colons; parm.with_chain = ctrl->with_chain; parm.raw_mode = raw_mode; rc = gpgsm_dirmngr_lookup (ctrl, names, NULL, 0, list_external_cb, &parm); if (gpg_err_code (rc) == GPG_ERR_EOF || rc == -1 || gpg_err_code (rc) == GPG_ERR_NOT_FOUND) rc = 0; /* "Not found" is not an error here. */ if (rc) log_error ("listing external keys failed: %s\n", gpg_strerror (rc)); return rc; } /* List all keys or just the key given as NAMES. MODE controls the operation mode: Bit 0-2: 0 = list all public keys but don't flag secret ones 1 = list only public keys 2 = list only secret keys 3 = list secret and public keys Bit 6: list internal keys Bit 7: list external keys Bit 8: Do a raw format dump. */ gpg_error_t gpgsm_list_keys (ctrl_t ctrl, strlist_t names, estream_t fp, unsigned int mode) { gpg_error_t err = 0; if ((mode & (1<<6))) err = list_internal_keys (ctrl, names, fp, (mode & 3), (mode&256)); if (!err && (mode & (1<<7))) err = list_external_keys (ctrl, names, fp, (mode&256)); return err; } diff --git a/sm/sign.c b/sm/sign.c index bc25535db..db8ef0226 100644 --- a/sm/sign.c +++ b/sm/sign.c @@ -1,850 +1,850 @@ /* sign.c - Sign a message * Copyright (C) 2001, 2002, 2003, 2008, * 2010 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 #include #include "gpgsm.h" #include #include #include "keydb.h" #include "../common/i18n.h" /* Hash the data and return if something was hashed. Return -1 on error. */ static int hash_data (int fd, gcry_md_hd_t md) { estream_t fp; char buffer[4096]; int nread; int rc = 0; fp = es_fdopen_nc (fd, "rb"); if (!fp) { log_error ("fdopen(%d) failed: %s\n", fd, strerror (errno)); return -1; } do { nread = es_fread (buffer, 1, DIM(buffer), fp); gcry_md_write (md, buffer, nread); } while (nread); if (es_ferror (fp)) { log_error ("read error on fd %d: %s\n", fd, strerror (errno)); rc = -1; } es_fclose (fp); return rc; } static int hash_and_copy_data (int fd, gcry_md_hd_t md, ksba_writer_t writer) { gpg_error_t err; estream_t fp; char buffer[4096]; int nread; int rc = 0; int any = 0; fp = es_fdopen_nc (fd, "rb"); if (!fp) { gpg_error_t tmperr = gpg_error_from_syserror (); log_error ("fdopen(%d) failed: %s\n", fd, strerror (errno)); return tmperr; } do { nread = es_fread (buffer, 1, DIM(buffer), fp); if (nread) { any = 1; gcry_md_write (md, buffer, nread); err = ksba_writer_write_octet_string (writer, buffer, nread, 0); if (err) { log_error ("write failed: %s\n", gpg_strerror (err)); rc = err; } } } while (nread && !rc); if (es_ferror (fp)) { rc = gpg_error_from_syserror (); log_error ("read error on fd %d: %s\n", fd, strerror (errno)); } es_fclose (fp); if (!any) { /* We can't allow signing an empty message because it does not make much sense and more seriously, ksba_cms_build has already written the tag for data and now expects an octet string and an octet string of size 0 is illegal. */ log_error ("cannot sign an empty message\n"); rc = gpg_error (GPG_ERR_NO_DATA); } if (!rc) { err = ksba_writer_write_octet_string (writer, NULL, 0, 1); if (err) { log_error ("write failed: %s\n", gpg_strerror (err)); rc = err; } } return rc; } /* Get the default certificate which is defined as the first certificate capable of signing returned by the keyDB and has a secret key available. */ int gpgsm_get_default_cert (ctrl_t ctrl, ksba_cert_t *r_cert) { KEYDB_HANDLE hd; ksba_cert_t cert = NULL; int rc; char *p; hd = keydb_new (); if (!hd) return gpg_error (GPG_ERR_GENERAL); rc = keydb_search_first (ctrl, hd); if (rc) { keydb_release (hd); return rc; } do { rc = keydb_get_cert (hd, &cert); if (rc) { log_error ("keydb_get_cert failed: %s\n", gpg_strerror (rc)); keydb_release (hd); return rc; } if (!gpgsm_cert_use_sign_p (cert, 1)) { p = gpgsm_get_keygrip_hexstring (cert); if (p) { if (!gpgsm_agent_havekey (ctrl, p)) { xfree (p); keydb_release (hd); *r_cert = cert; return 0; /* got it */ } xfree (p); } } ksba_cert_release (cert); cert = NULL; } while (!(rc = keydb_search_next (ctrl, hd))); if (rc && rc != -1) log_error ("keydb_search_next failed: %s\n", gpg_strerror (rc)); ksba_cert_release (cert); keydb_release (hd); return rc; } static ksba_cert_t get_default_signer (ctrl_t ctrl) { KEYDB_SEARCH_DESC desc; ksba_cert_t cert = NULL; KEYDB_HANDLE kh = NULL; int rc; if (!opt.local_user) { rc = gpgsm_get_default_cert (ctrl, &cert); if (rc) { if (rc != -1) log_debug ("failed to find default certificate: %s\n", gpg_strerror (rc)); return NULL; } return cert; } rc = classify_user_id (opt.local_user, &desc, 0); if (rc) { log_error ("failed to find default signer: %s\n", gpg_strerror (rc)); return NULL; } kh = keydb_new (); if (!kh) return NULL; rc = keydb_search (ctrl, kh, &desc, 1); if (rc) { log_debug ("failed to find default certificate: rc=%d\n", rc); } else { rc = keydb_get_cert (kh, &cert); if (rc) { log_debug ("failed to get cert: rc=%d\n", rc); } } keydb_release (kh); return cert; } /* Depending on the options in CTRL add the certificate CERT as well as other certificate up in the chain to the Root-CA to the CMS object. */ static int add_certificate_list (ctrl_t ctrl, ksba_cms_t cms, ksba_cert_t cert) { gpg_error_t err; int rc = 0; ksba_cert_t next = NULL; int n; int not_root = 0; ksba_cert_ref (cert); n = ctrl->include_certs; log_debug ("adding certificates at level %d\n", n); if (n == -2) { not_root = 1; n = -1; } if (n < 0 || n > 50) n = 50; /* We better apply an upper bound */ /* First add my own certificate unless we don't want any certificate included at all. */ if (n) { if (not_root && gpgsm_is_root_cert (cert)) err = 0; else err = ksba_cms_add_cert (cms, cert); if (err) goto ksba_failure; if (n>0) n--; } /* Walk the chain to include all other certificates. Note that a -1 used for N makes sure that there is no limit and all certs get included. */ while ( n-- && !(rc = gpgsm_walk_cert_chain (ctrl, cert, &next)) ) { if (not_root && gpgsm_is_root_cert (next)) err = 0; else err = ksba_cms_add_cert (cms, next); ksba_cert_release (cert); cert = next; next = NULL; if (err) goto ksba_failure; } ksba_cert_release (cert); - return rc == -1? 0: rc; + return gpg_err_code (rc) == GPG_ERR_NOT_FOUND? 0 : rc; ksba_failure: ksba_cert_release (cert); log_error ("ksba_cms_add_cert failed: %s\n", gpg_strerror (err)); return err; } /* Perform a sign operation. Sign the data received on DATA-FD in embedded mode or in detached mode when DETACHED is true. Write the signature to OUT_FP. The keys used to sign are taken from SIGNERLIST or the default one will be used if the value of this argument is NULL. */ int gpgsm_sign (ctrl_t ctrl, certlist_t signerlist, int data_fd, int detached, estream_t out_fp) { int i, rc; gpg_error_t err; gnupg_ksba_io_t b64writer = NULL; ksba_writer_t writer; ksba_cms_t cms = NULL; ksba_stop_reason_t stopreason; KEYDB_HANDLE kh = NULL; gcry_md_hd_t data_md = NULL; int signer; const char *algoid; int algo; ksba_isotime_t signed_at; certlist_t cl; int release_signerlist = 0; audit_set_type (ctrl->audit, AUDIT_TYPE_SIGN); kh = keydb_new (); if (!kh) { log_error (_("failed to allocate keyDB handle\n")); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } if (!gnupg_rng_is_compliant (opt.compliance)) { rc = gpg_error (GPG_ERR_FORBIDDEN); log_error (_("%s is not compliant with %s mode\n"), "RNG", gnupg_compliance_option_string (opt.compliance)); gpgsm_status_with_error (ctrl, STATUS_ERROR, "random-compliance", rc); goto leave; } ctrl->pem_name = "SIGNED MESSAGE"; rc = gnupg_ksba_create_writer (&b64writer, ((ctrl->create_pem? GNUPG_KSBA_IO_PEM : 0) | (ctrl->create_base64? GNUPG_KSBA_IO_BASE64 : 0)), ctrl->pem_name, out_fp, &writer); if (rc) { log_error ("can't create writer: %s\n", gpg_strerror (rc)); goto leave; } err = ksba_cms_new (&cms); if (err) { rc = err; goto leave; } err = ksba_cms_set_reader_writer (cms, NULL, writer); if (err) { log_debug ("ksba_cms_set_reader_writer failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } /* We are going to create signed data with data as encap. content */ err = ksba_cms_set_content_type (cms, 0, KSBA_CT_SIGNED_DATA); if (!err) err = ksba_cms_set_content_type (cms, 1, KSBA_CT_DATA); if (err) { log_debug ("ksba_cms_set_content_type failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } /* If no list of signers is given, use the default certificate. */ if (!signerlist) { ksba_cert_t cert = get_default_signer (ctrl); if (!cert) { log_error ("no default signer found\n"); gpgsm_status2 (ctrl, STATUS_INV_SGNR, get_inv_recpsgnr_code (GPG_ERR_NO_SECKEY), NULL); rc = gpg_error (GPG_ERR_GENERAL); goto leave; } /* Although we don't check for ambiguous specification we will check that the signer's certificate is usable and valid. */ rc = gpgsm_cert_use_sign_p (cert, 0); if (!rc) rc = gpgsm_validate_chain (ctrl, cert, "", NULL, 0, NULL, 0, NULL); if (rc) { char *tmpfpr; tmpfpr = gpgsm_get_fingerprint_hexstring (cert, 0); gpgsm_status2 (ctrl, STATUS_INV_SGNR, get_inv_recpsgnr_code (rc), tmpfpr, NULL); xfree (tmpfpr); goto leave; } /* That one is fine - create signerlist. */ signerlist = xtrycalloc (1, sizeof *signerlist); if (!signerlist) { rc = out_of_core (); ksba_cert_release (cert); goto leave; } signerlist->cert = cert; release_signerlist = 1; } /* Figure out the hash algorithm to use. We do not want to use the one for the certificate but if possible an OID for the plain algorithm. */ if (opt.forced_digest_algo && opt.verbose) log_info ("user requested hash algorithm %d\n", opt.forced_digest_algo); for (i=0, cl=signerlist; cl; cl = cl->next, i++) { const char *oid; unsigned int nbits; int pk_algo; pk_algo = gpgsm_get_key_algo_info (cl->cert, &nbits); cl->pk_algo = pk_algo; if (opt.forced_digest_algo) { oid = NULL; cl->hash_algo = opt.forced_digest_algo; } else { if (pk_algo == GCRY_PK_ECC) { /* Map the Curve to a corresponding hash algo. */ if (nbits <= 256) oid = "2.16.840.1.101.3.4.2.1"; /* sha256 */ else if (nbits <= 384) oid = "2.16.840.1.101.3.4.2.2"; /* sha384 */ else oid = "2.16.840.1.101.3.4.2.3"; /* sha512 */ } else { /* For RSA we reuse the hash algo used by the certificate. */ oid = ksba_cert_get_digest_algo (cl->cert); } cl->hash_algo = oid ? gcry_md_map_name (oid) : 0; } switch (cl->hash_algo) { case GCRY_MD_SHA1: oid = "1.3.14.3.2.26"; break; case GCRY_MD_RMD160: oid = "1.3.36.3.2.1"; break; case GCRY_MD_SHA224: oid = "2.16.840.1.101.3.4.2.4"; break; case GCRY_MD_SHA256: oid = "2.16.840.1.101.3.4.2.1"; break; case GCRY_MD_SHA384: oid = "2.16.840.1.101.3.4.2.2"; break; case GCRY_MD_SHA512: oid = "2.16.840.1.101.3.4.2.3"; break; case GCRY_MD_MD5: /* We don't want to use MD5. */ case 0: /* No algorithm found in cert. */ default: /* Other algorithms. */ log_info (_("hash algorithm %d (%s) for signer %d not supported;" " using %s\n"), cl->hash_algo, oid? oid: "?", i, gcry_md_algo_name (GCRY_MD_SHA1)); cl->hash_algo = GCRY_MD_SHA1; oid = "1.3.14.3.2.26"; break; } cl->hash_algo_oid = oid; /* Check compliance. */ if (! gnupg_digest_is_allowed (opt.compliance, 1, cl->hash_algo)) { log_error (_("digest algorithm '%s' may not be used in %s mode\n"), gcry_md_algo_name (cl->hash_algo), gnupg_compliance_option_string (opt.compliance)); err = gpg_error (GPG_ERR_DIGEST_ALGO); goto leave; } if (!gnupg_pk_is_allowed (opt.compliance, PK_USE_SIGNING, pk_algo, 0, NULL, nbits, NULL)) { char kidstr[10+1]; snprintf (kidstr, sizeof kidstr, "0x%08lX", gpgsm_get_short_fingerprint (cl->cert, NULL)); log_error (_("key %s may not be used for signing in %s mode\n"), kidstr, gnupg_compliance_option_string (opt.compliance)); err = gpg_error (GPG_ERR_PUBKEY_ALGO); goto leave; } } if (opt.verbose > 1 || opt.debug) { for (i=0, cl=signerlist; cl; cl = cl->next, i++) log_info (_("hash algorithm used for signer %d: %s (%s)\n"), i, gcry_md_algo_name (cl->hash_algo), cl->hash_algo_oid); } /* Gather certificates of signers and store them in the CMS object. */ for (cl=signerlist; cl; cl = cl->next) { rc = gpgsm_cert_use_sign_p (cl->cert, 0); if (rc) goto leave; err = ksba_cms_add_signer (cms, cl->cert); if (err) { log_error ("ksba_cms_add_signer failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } rc = add_certificate_list (ctrl, cms, cl->cert); if (rc) { log_error ("failed to store list of certificates: %s\n", gpg_strerror(rc)); goto leave; } /* Set the hash algorithm we are going to use */ err = ksba_cms_add_digest_algo (cms, cl->hash_algo_oid); if (err) { log_debug ("ksba_cms_add_digest_algo failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } } /* Check whether one of the certificates is qualified. Note that we already validated the certificate and thus the user data stored flag must be available. */ if (!opt.no_chain_validation) { for (cl=signerlist; cl; cl = cl->next) { size_t buflen; char buffer[1]; err = ksba_cert_get_user_data (cl->cert, "is_qualified", &buffer, sizeof (buffer), &buflen); if (err || !buflen) { log_error (_("checking for qualified certificate failed: %s\n"), gpg_strerror (err)); rc = err; goto leave; } if (*buffer) err = gpgsm_qualified_consent (ctrl, cl->cert); else err = gpgsm_not_qualified_warning (ctrl, cl->cert); if (err) { rc = err; goto leave; } } } /* Prepare hashing (actually we are figuring out what we have set above). */ rc = gcry_md_open (&data_md, 0, 0); if (rc) { log_error ("md_open failed: %s\n", gpg_strerror (rc)); goto leave; } if (DBG_HASHING) gcry_md_debug (data_md, "sign.data"); for (i=0; (algoid=ksba_cms_get_digest_algo_list (cms, i)); i++) { algo = gcry_md_map_name (algoid); if (!algo) { log_error ("unknown hash algorithm '%s'\n", algoid? algoid:"?"); rc = gpg_error (GPG_ERR_BUG); goto leave; } gcry_md_enable (data_md, algo); audit_log_i (ctrl->audit, AUDIT_DATA_HASH_ALGO, algo); } audit_log (ctrl->audit, AUDIT_SETUP_READY); if (detached) { /* We hash the data right now so that we can store the message digest. ksba_cms_build() takes this as an flag that detached data is expected. */ unsigned char *digest; size_t digest_len; if (!hash_data (data_fd, data_md)) audit_log (ctrl->audit, AUDIT_GOT_DATA); for (cl=signerlist,signer=0; cl; cl = cl->next, signer++) { digest = gcry_md_read (data_md, cl->hash_algo); digest_len = gcry_md_get_algo_dlen (cl->hash_algo); if ( !digest || !digest_len ) { log_error ("problem getting the hash of the data\n"); rc = gpg_error (GPG_ERR_BUG); goto leave; } err = ksba_cms_set_message_digest (cms, signer, digest, digest_len); if (err) { log_error ("ksba_cms_set_message_digest failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } } } gnupg_get_isotime (signed_at); for (cl=signerlist,signer=0; cl; cl = cl->next, signer++) { err = ksba_cms_set_signing_time (cms, signer, signed_at); if (err) { log_error ("ksba_cms_set_signing_time failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } } /* We need to write at least a minimal list of our capabilities to * try to convince some MUAs to use 3DES and not the crippled * RC2. Our list is: * * aes256-CBC * aes128-CBC * des-EDE3-CBC */ err = ksba_cms_add_smime_capability (cms, "2.16.840.1.101.3.4.1.42", NULL,0); if (!err) err = ksba_cms_add_smime_capability (cms, "2.16.840.1.101.3.4.1.2", NULL,0); if (!err) err = ksba_cms_add_smime_capability (cms, "1.2.840.113549.3.7", NULL, 0); if (err) { log_error ("ksba_cms_add_smime_capability failed: %s\n", gpg_strerror (err)); goto leave; } /* Main building loop. */ do { err = ksba_cms_build (cms, &stopreason); if (err) { log_debug ("ksba_cms_build failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } if (stopreason == KSBA_SR_BEGIN_DATA) { /* Hash the data and store the message digest. */ unsigned char *digest; size_t digest_len; assert (!detached); rc = hash_and_copy_data (data_fd, data_md, writer); if (rc) goto leave; audit_log (ctrl->audit, AUDIT_GOT_DATA); for (cl=signerlist,signer=0; cl; cl = cl->next, signer++) { digest = gcry_md_read (data_md, cl->hash_algo); digest_len = gcry_md_get_algo_dlen (cl->hash_algo); if ( !digest || !digest_len ) { log_error ("problem getting the hash of the data\n"); rc = gpg_error (GPG_ERR_BUG); goto leave; } err = ksba_cms_set_message_digest (cms, signer, digest, digest_len); if (err) { log_error ("ksba_cms_set_message_digest failed: %s\n", gpg_strerror (err)); rc = err; goto leave; } } } else if (stopreason == KSBA_SR_NEED_SIG) { /* Compute the signature for all signers. */ gcry_md_hd_t md; rc = gcry_md_open (&md, 0, 0); if (rc) { log_error ("md_open failed: %s\n", gpg_strerror (rc)); goto leave; } if (DBG_HASHING) gcry_md_debug (md, "sign.attr"); ksba_cms_set_hash_function (cms, HASH_FNC, md); for (cl=signerlist,signer=0; cl; cl = cl->next, signer++) { unsigned char *sigval = NULL; char *buf, *fpr; audit_log_i (ctrl->audit, AUDIT_NEW_SIG, signer); if (signer) gcry_md_reset (md); { certlist_t cl_tmp; for (cl_tmp=signerlist; cl_tmp; cl_tmp = cl_tmp->next) { gcry_md_enable (md, cl_tmp->hash_algo); audit_log_i (ctrl->audit, AUDIT_ATTR_HASH_ALGO, cl_tmp->hash_algo); } } rc = ksba_cms_hash_signed_attrs (cms, signer); if (rc) { log_debug ("hashing signed attrs failed: %s\n", gpg_strerror (rc)); gcry_md_close (md); goto leave; } rc = gpgsm_create_cms_signature (ctrl, cl->cert, md, cl->hash_algo, &sigval); if (rc) { audit_log_cert (ctrl->audit, AUDIT_SIGNED_BY, cl->cert, rc); gcry_md_close (md); goto leave; } err = ksba_cms_set_sig_val (cms, signer, sigval); xfree (sigval); if (err) { audit_log_cert (ctrl->audit, AUDIT_SIGNED_BY, cl->cert, err); log_error ("failed to store the signature: %s\n", gpg_strerror (err)); rc = err; gcry_md_close (md); goto leave; } /* write a status message */ fpr = gpgsm_get_fingerprint_hexstring (cl->cert, GCRY_MD_SHA1); if (!fpr) { rc = gpg_error (GPG_ERR_ENOMEM); gcry_md_close (md); goto leave; } rc = 0; if (opt.verbose) { char *pkalgostr = gpgsm_pubkey_algo_string (cl->cert, NULL); log_info (_("%s/%s signature using %s key %s\n"), pubkey_algo_to_string (cl->pk_algo), gcry_md_algo_name (cl->hash_algo), pkalgostr, fpr); xfree (pkalgostr); } buf = xtryasprintf ("%c %d %d 00 %s %s", detached? 'D':'S', cl->pk_algo, cl->hash_algo, signed_at, fpr); if (!buf) rc = gpg_error_from_syserror (); xfree (fpr); if (rc) { gcry_md_close (md); goto leave; } gpgsm_status (ctrl, STATUS_SIG_CREATED, buf); xfree (buf); audit_log_cert (ctrl->audit, AUDIT_SIGNED_BY, cl->cert, 0); } gcry_md_close (md); } } while (stopreason != KSBA_SR_READY); rc = gnupg_ksba_finish_writer (b64writer); if (rc) { log_error ("write failed: %s\n", gpg_strerror (rc)); goto leave; } audit_log (ctrl->audit, AUDIT_SIGNING_DONE); log_info ("signature created\n"); leave: if (rc) log_error ("error creating signature: %s <%s>\n", gpg_strerror (rc), gpg_strsource (rc) ); if (release_signerlist) gpgsm_release_certlist (signerlist); ksba_cms_release (cms); gnupg_ksba_destroy_writer (b64writer); keydb_release (kh); gcry_md_close (data_md); return rc; }