/* t-keylist.c - regression test * Copyright (C) 2000 Werner Koch (dd9jn) * Copyright (C) 2001, 2003, 2004 g10 Code GmbH * * This file is part of GPGME. * * GPGME is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * GPGME is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see <https://gnu.org/licenses/>. * SPDX-License-Identifier: LGPL-2.1-or-later */ /* We need to include config.h so that we know whether we are building with large file system (LFS) support. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <stdlib.h> #include <stdio.h> #include <string.h> #include <gpgme.h> #include "t-support.h" struct key_info_s { const char *fpr; const char *sec_keyid; struct { const char *name; const char *comment; const char *email; } uid[3]; int n_subkeys; void (*misc_check)(struct key_info_s *keyinfo, gpgme_key_t key); }; static void check_whisky (struct key_info_s *keyinfo, gpgme_key_t key); struct key_info_s keys[] = { { "A0FF4590BB6122EDEF6E3C542D727CC768697734", "6AE6D7EE46A871F8", { { "Alfa Test", "demo key", "alfa@example.net" }, { "Alpha Test", "demo key", "alpha@example.net" }, { "Alice", "demo key", NULL } }, 1 }, { "D695676BDCEDCC2CDD6152BCFE180B1DA9E3B0B2", "5381EA4EE29BA37F", { { "Bob", "demo key", NULL }, { "Bravo Test", "demo key", "bravo@example.net" } }, 1 }, { "61EE841A2A27EB983B3B3C26413F4AF31AFDAB6C", "E71E72ACBC43DA60", { { "Charlie Test", "demo key", "charlie@example.net" } }, 1 }, { "6560C59C43D031C54D7C588EEBA9F240EB9DC9E6", "06F22880B0C45424", { { "Delta Test", "demo key", "delta@example.net" } }, 1 }, { "3531152DE293E26A07F504BC318C1FAEFAEF6D1B", "B5C79E1A7272144D", { { "Echelon", "demo key", NULL }, { "Echo Test", "demo key", "echo@example.net" }, { "Eve", "demo key", NULL } }, 1 }, { "56D33268F7FE693FBB594762D4BF57F37372E243", "0A32EE79EE45198E", { { "Foxtrot Test", "demo key", "foxtrot@example.net" } }, 1 }, { "C9C07DCC6621B9FB8D071B1D168410A48FC282E6", "247491CC9DCAD354", { { "Golf Test", "demo key", "golf@example.net" } }, 1 }, { "9E91CBB11E4D4135583EF90513DB965534C6E3F1", "76E26537D622AD0A", { { "Hotel Test", "demo key", "hotel@example.net" } }, 1 }, { "CD538D6CC9FB3D745ECDA5201FE8FC6F04259677", "C1C8EFDE61F76C73", { { "India Test", "demo key", "india@example.net" } }, 1 }, { "F8F1EDC73995AB739AD54B380C820C71D2699313", "BD0B108735F8F136", { { "Juliet Test", "demo key", "juliet@example.net" } }, 1 }, { "3FD11083779196C2ECDD9594AD1B0FAD43C2D0C7", "86CBB34A9AF64D02", { { "Kilo Test", "demo key", "kilo@example.net" } }, 1 }, { "1DDD28CEF714F5B03B8C246937CAB51FB79103F8", "0363B449FE56350C", { { "Lima Test", "demo key", "lima@example.net" } }, 1 }, { "2686AA191A278013992C72EBBE794852BE5CF886", "5F600A834F31EAE8", { { "Mallory", "demo key", NULL }, { "Mike Test", "demo key", "mike@example.net" } }, 1 }, { "5AB9D6D7BAA1C95B3BAA3D9425B00FD430CEC684", "4C1D63308B70E472", { { "November Test", "demo key", "november@example.net" } }, 1 }, { "43929E89F8F79381678CAE515F6356BA6D9732AC", "FF0785712681619F", { { "Oscar Test", "demo key", "oscar@example.net" } }, 1 }, { "6FAA9C201E5E26DCBAEC39FD5D15E01D3FF13206", "2764E18263330D9C", { { "Papa test", "demo key", "papa@example.net" } }, 1 }, { "A7969DA1C3297AA96D49843F1C67EC133C661C84", "6CDCFC44A029ACF4", { { "Quebec Test", "demo key", "quebec@example.net" } }, 1 }, { "38FBE1E4BF6A5E1242C8F6A13BDBEDB1777FBED3", "9FAB805A11D102EA", { { "Romeo Test", "demo key", "romeo@example.net" } }, 1 }, { "045B2334ADD69FC221076841A5E67F7FA3AE3EA1", "93B88B0F0F1B50B4", { { "Sierra Test", "demo key", "sierra@example.net" } }, 1 }, { "ECAC774F4EEEB0620767044A58CB9A4C85A81F38", "97B60E01101C0402", { { "Tango Test", "demo key", "tango@example.net" } }, 1 }, { "0DBCAD3F08843B9557C6C4D4A94C0F75653244D6", "93079B915522BDB9", { { "Uniform Test", "demo key", "uniform@example.net" } }, 1 }, { "E8143C489C8D41124DC40D0B47AF4B6961F04784", "04071FB807287134", { { "Victor Test", "demo key", "victor@example.org" } }, 1 }, { "E8D6C90B683B0982BD557A99DEF0F7B8EC67DBDE", "D7FBB421FD6E27F6", { { "Whisky Test", "demo key", "whisky@example.net" } }, 3, check_whisky }, { "04C1DF62EFA0EBB00519B06A8979A6C5567FB34A", "5CC6F87F41E408BE", { { "XRay Test", "demo key", "xray@example.net" } }, 1 }, { "ED9B316F78644A58D042655A9EEF34CD4B11B25F", "5ADFD255F7B080AD", { { "Yankee Test", "demo key", "yankee@example.net" } }, 1 }, { "23FD347A419429BACCD5E72D6BC4778054ACD246", "EF9DC276A172C881", { { "Zulu Test", "demo key", "zulu@example.net" } }, 1 }, { "ADAB7FCC1F4DE2616ECFA402AF82244F9CD9FD55", "087DD7E0381701C4", { { "Joe Random Hacker", "test key with passphrase \"abc\"", "joe@example.com" } }, 1 }, { NULL } }; int main (int argc, char **argv) { gpgme_error_t err; gpgme_ctx_t ctx; gpgme_key_t key; gpgme_keylist_result_t result; int i = 0; int n; gpgme_subkey_t subkey; (void)argc; (void)argv; init_gpgme (GPGME_PROTOCOL_OpenPGP); err = gpgme_new (&ctx); fail_if_err (err); err = gpgme_op_keylist_start (ctx, NULL, 0); fail_if_err (err); while (!(err = gpgme_op_keylist_next (ctx, &key))) { if (!keys[i].fpr) { fprintf (stderr, "More keys returned than expected\n"); exit (1); } /* Global key flags. */ if (key->revoked) { fprintf (stderr, "Key unexpectedly revoked\n"); exit (1); } if (key->expired) { fprintf (stderr, "Key unexpectedly expired\n"); exit (1); } if (key->disabled) { fprintf (stderr, "Key unexpectedly disabled\n"); exit (1); } if (key->invalid) { fprintf (stderr, "Key unexpectedly invalid\n"); exit (1); } #if 0 /* GnuPG 2.1+ have a different subkey for encryption. */ if (!key->can_encrypt) { fprintf (stderr, "Key unexpectedly unusable for encryption\n"); exit (1); } #endif if (!key->can_sign) { fprintf (stderr, "Key unexpectedly unusable for signing\n"); exit (1); } if (!key->can_certify) { fprintf (stderr, "Key unexpectedly unusable for certifications\n"); exit (1); } if (key->secret) { fprintf (stderr, "Key unexpectedly secret\n"); exit (1); } if (key->protocol != GPGME_PROTOCOL_OpenPGP) { fprintf (stderr, "Key has unexpected protocol: %s\n", gpgme_get_protocol_name (key->protocol)); exit (1); } if (key->issuer_serial) { fprintf (stderr, "Key unexpectedly carries issuer serial: %s\n", key->issuer_serial); exit (1); } if (key->issuer_name) { fprintf (stderr, "Key unexpectedly carries issuer name: %s\n", key->issuer_name); exit (1); } if (key->chain_id) { fprintf (stderr, "Key unexpectedly carries chain ID: %s\n", key->chain_id); exit (1); } if (key->owner_trust != GPGME_VALIDITY_UNKNOWN) { fprintf (stderr, "Key has unexpected owner trust: %i\n", key->owner_trust); exit (1); } for (n=0, subkey = key->subkeys; subkey; subkey = subkey->next) n++; if (!n || n-1 != keys[i].n_subkeys) { fprintf (stderr, "Key `%s' has unexpected number of subkeys\n", keys[i].uid[0].name); exit (1); } /* Primary key. */ if (key->subkeys->revoked) { fprintf (stderr, "Primary key unexpectedly revoked\n"); exit (1); } if (key->subkeys->expired) { fprintf (stderr, "Primary key unexpectedly expired\n"); exit (1); } if (key->subkeys->disabled) { fprintf (stderr, "Primary key unexpectedly disabled\n"); exit (1); } if (key->subkeys->invalid) { fprintf (stderr, "Primary key unexpectedly invalid\n"); exit (1); } if (key->subkeys->can_encrypt) { fprintf (stderr, "Primary key unexpectedly usable for encryption\n"); exit (1); } if (!key->subkeys->can_sign) { fprintf (stderr, "Primary key unexpectedly unusable for signing\n"); exit (1); } if (!key->subkeys->can_certify) { fprintf (stderr, "Primary key unexpectedly unusable for certifications\n"); exit (1); } if (key->subkeys->secret) { fprintf (stderr, "Primary key unexpectedly secret\n"); exit (1); } if (key->subkeys->is_cardkey) { fprintf (stderr, "Public key marked as card key\n"); exit (1); } if (key->subkeys->card_number) { fprintf (stderr, "Public key with card number set\n"); exit (1); } if (key->subkeys->pubkey_algo != GPGME_PK_DSA) { fprintf (stderr, "Primary key has unexpected public key algo: %s\n", gpgme_pubkey_algo_name (key->subkeys->pubkey_algo)); exit (1); } if (key->subkeys->length != 1024) { fprintf (stderr, "Primary key has unexpected length: %i\n", key->subkeys->length); exit (1); } if (strcmp (key->subkeys->keyid, &keys[i].fpr[40 - 16])) { fprintf (stderr, "Primary key `%s' has unexpected key ID: %s\n", keys[i].uid[0].name, key->subkeys->keyid); exit (1); } if (strcmp (key->subkeys->fpr, keys[i].fpr)) { fprintf (stderr, "Primary key has unexpected fingerprint: %s\n", key->subkeys->fpr); exit (1); } if (key->subkeys->expires) { fprintf (stderr, "Primary key `%s' unexpectedly expires: %lu\n", keys[i].uid[0].name, key->subkeys->expires); exit (1); } /* Secondary key. */ if (key->subkeys->next->revoked) { fprintf (stderr, "Secondary key unexpectedly revoked\n"); exit (1); } if (key->subkeys->next->expired) { fprintf (stderr, "Secondary key unexpectedly expired\n"); exit (1); } if (key->subkeys->next->disabled) { fprintf (stderr, "Secondary key unexpectedly disabled\n"); exit (1); } if (key->subkeys->next->invalid) { fprintf (stderr, "Secondary key unexpectedly invalid\n"); exit (1); } if (!key->subkeys->next->can_encrypt) { fprintf (stderr, "Secondary key unexpectedly unusable for encryption\n"); exit (1); } if (key->subkeys->next->can_sign) { fprintf (stderr, "Secondary key unexpectedly usable for signing\n"); exit (1); } if (key->subkeys->next->can_certify) { fprintf (stderr, "Secondary key unexpectedly usable for certifications\n"); exit (1); } if (key->subkeys->next->secret) { fprintf (stderr, "Secondary key unexpectedly secret\n"); exit (1); } if (key->subkeys->next->is_cardkey) { fprintf (stderr, "Secondary public key marked as card key\n"); exit (1); } if (key->subkeys->next->card_number) { fprintf (stderr, "Secondary public key with card number set\n"); exit (1); } if (key->subkeys->next->pubkey_algo != GPGME_PK_ELG_E) { fprintf (stderr, "Secondary key has unexpected public key algo: %s\n", gpgme_pubkey_algo_name (key->subkeys->next->pubkey_algo)); exit (1); } if (key->subkeys->next->length != 1024) { fprintf (stderr, "Secondary key has unexpected length: %i\n", key->subkeys->next->length); exit (1); } if (strcmp (key->subkeys->next->keyid, keys[i].sec_keyid)) { fprintf (stderr, "Secondary key `%s' has unexpected key ID: %s/%s\n", keys[i].uid[0].name, key->subkeys->next->keyid, keys[i].sec_keyid ); exit (1); } if (!key->subkeys->next->fpr) { fprintf (stderr, "Secondary key has unexpectedly no fingerprint\n"); exit (1); } if (key->subkeys->next->expires) { fprintf (stderr, "Secondary key unexpectedly expires: %lu\n", key->subkeys->next->expires); exit (1); } /* FIXME: The below test will crash if we want to check for a name, comment or email that doesn't exist in the key's user IDs. */ if (!((!keys[i].uid[0].name && !key->uids) || (keys[i].uid[0].name && !keys[i].uid[1].name && key->uids && !key->uids->next) || (keys[i].uid[0].name && keys[i].uid[1].name && !keys[i].uid[2].name && key->uids && key->uids->next && !key->uids->next->next) || (keys[i].uid[0].name && keys[i].uid[1].name && keys[i].uid[2].name && key->uids && key->uids->next && key->uids->next->next && !key->uids->next->next->next))) { fprintf (stderr, "Key has unexpected number of user IDs\n"); exit (1); } if (key->uids && key->uids->revoked) { fprintf (stderr, "First user ID unexpectedly revoked\n"); exit (1); } if (key->uids && key->uids->invalid) { fprintf (stderr, "First user ID unexpectedly invalid\n"); exit (1); } if (key->uids && key->uids->validity != GPGME_VALIDITY_UNKNOWN) { fprintf (stderr, "First user ID has unexpectedly validity: %i\n", key->uids->validity); exit (1); } if (key->uids && key->uids->signatures) { fprintf (stderr, "First user ID unexpectedly signed\n"); exit (1); } if (keys[i].uid[0].name && strcmp (keys[i].uid[0].name, key->uids->name)) { fprintf (stderr, "Unexpected name in first user ID: %s\n", key->uids->name); exit (1); } if (keys[i].uid[0].comment && strcmp (keys[i].uid[0].comment, key->uids->comment)) { fprintf (stderr, "Unexpected comment in first user ID: %s\n", key->uids->comment); exit (1); } if (keys[i].uid[0].email && strcmp (keys[i].uid[0].email, key->uids->email)) { fprintf (stderr, "Unexpected email in first user ID: %s\n", key->uids->email); exit (1); } if (key->uids && key->uids->next && key->uids->next->revoked) { fprintf (stderr, "Second user ID unexpectedly revoked\n"); exit (1); } if (key->uids && key->uids->next && key->uids->next->invalid) { fprintf (stderr, "Second user ID unexpectedly invalid\n"); exit (1); } if (key->uids && key->uids->next && key->uids->next->validity != GPGME_VALIDITY_UNKNOWN) { fprintf (stderr, "Second user ID has unexpectedly validity: %i\n", key->uids->next->validity); exit (1); } if (key->uids && key->uids->next && key->uids->next->signatures) { fprintf (stderr, "Second user ID unexpectedly signed\n"); exit (1); } if (keys[i].uid[1].name && strcmp (keys[i].uid[1].name, key->uids->next->name)) { fprintf (stderr, "Unexpected name in second user ID: %s\n", key->uids->next->name); exit (1); } if (keys[i].uid[1].comment && strcmp (keys[i].uid[1].comment, key->uids->next->comment)) { fprintf (stderr, "Unexpected comment in second user ID: %s\n", key->uids->next->comment); exit (1); } if (keys[i].uid[1].email && strcmp (keys[i].uid[1].email, key->uids->next->email)) { fprintf (stderr, "Unexpected email in second user ID: %s\n", key->uids->next->email); exit (1); } if (key->uids && key->uids->next && key->uids->next->next && key->uids->next->next->revoked) { fprintf (stderr, "Third user ID unexpectedly revoked\n"); exit (1); } if (key->uids && key->uids->next && key->uids->next->next && key->uids->next->next->invalid) { fprintf (stderr, "Third user ID unexpectedly invalid\n"); exit (1); } if (key->uids && key->uids->next && key->uids->next->next && key->uids->next->next->validity != GPGME_VALIDITY_UNKNOWN) { fprintf (stderr, "Third user ID has unexpectedly validity: %i\n", key->uids->next->next->validity); exit (1); } if (key->uids && key->uids->next && key->uids->next->next && key->uids->next->next->signatures) { fprintf (stderr, "Third user ID unexpectedly signed\n"); exit (1); } if (keys[i].uid[2].name && strcmp (keys[i].uid[2].name, key->uids->next->next->name)) { fprintf (stderr, "Unexpected name in third user ID: %s\n", key->uids->next->next->name); exit (1); } if (keys[i].uid[2].comment && strcmp (keys[i].uid[2].comment, key->uids->next->next->comment)) { fprintf (stderr, "Unexpected comment in third user ID: %s\n", key->uids->next->next->comment); exit (1); } if (keys[i].uid[2].email && strcmp (keys[i].uid[2].email, key->uids->next->next->email)) { fprintf (stderr, "Unexpected email in third user ID: %s\n", key->uids->next->next->email); exit (1); } if (keys[i].misc_check) keys[i].misc_check (keys+i, key); gpgme_key_unref (key); i++; } if (gpgme_err_code (err) != GPG_ERR_EOF) fail_if_err (err); err = gpgme_op_keylist_end (ctx); fail_if_err (err); result = gpgme_op_keylist_result (ctx); if (result->truncated) { fprintf (stderr, "Key listing unexpectedly truncated\n"); exit (1); } if (keys[i].fpr) { fprintf (stderr, "Less keys (%d) returned than expected (%d)\n", i, (int)(DIM (keys) - 1)); exit (1); } gpgme_release (ctx); return 0; } /* Check expration of keys. This test assumes three subkeys of which 2 are expired; it is used with the "Whisky" test key. It has already been checked that these 3 subkeys are available. */ static void check_whisky (struct key_info_s *keyinfo, gpgme_key_t key) { const char *name = keyinfo->uid[0].name; gpgme_subkey_t sub1, sub2; sub1 = key->subkeys->next->next; sub2 = sub1->next; if (!sub1->expired || !sub2->expired) { fprintf (stderr, "Subkey of `%s' not flagged as expired\n", name); exit (1); } if (sub1->expires != 1129636886 || sub2->expires != 1129636939) { fprintf (stderr, "Subkey of `%s' has wrong expiration date\n", name); exit (1); } }