/* --- @dolock@ --- *
*
* Arguments: @keyopts *k@ = key generation options
- * @key_data *kd@ = pointer to key data to lock
+ * @key_data **kd@ = pointer to key data to lock
* @const char *t@ = tag suffix or null
*
* Returns: ---
* Use: Does passphrase locking on new keys.
*/
-static void dolock(keyopts *k, key_data *kd, const char *t)
+static void dolock(keyopts *k, key_data **kd, const char *t)
{
if (!(k->f & f_lock))
return;
if (t)
dstr_putf(&k->tag, ".%s", t);
- if (key_plock(k->tag.buf, kd, kd))
+ if (key_plock(kd, 0, k->tag.buf))
die(EXIT_FAILURE, "couldn't lock key");
}
-/* --- @mpkey@ --- *
- *
- * Arguments: @key_data *kd@ = pointer to parent key block
- * @const char *tag@ = pointer to tag string
- * @mp *m@ = integer to store
- * @unsigned f@ = flags to set
- *
- * Returns: ---
- *
- * Use: Sets a multiprecision integer subkey.
- */
-
-static void mpkey(key_data *kd, const char *tag, mp *m, unsigned f)
-{
- key_data *kkd = key_structcreate(kd, tag);
- key_mp(kkd, m);
- kkd->e |= f;
-}
-
/* --- @copyparam@ --- *
*
* Arguments: @keyopts *k@ = pointer to key options
/* --- Run through the checklist --- */
while (*pp) {
- key_data *kd = key_structfind(&k->p->k, *pp);
+ key_data *kd = key_structfind(k->p->k, *pp);
if (!kd)
die(EXIT_FAILURE, "bad parameter key: parameter `%s' not found", *pp);
if ((kd->e & KF_CATMASK) != KCAT_SHARE)
kf.f = KCAT_SHARE;
kf.m = KF_CATMASK;
- if (!key_copy(&k->k->k, &k->p->k, &kf))
- die(EXIT_FAILURE, "unexpected failure while copying parameters");
+ key_setkeydata(k->kf, k->k, k->p->k);
/* --- Copy over attributes --- */
k = key_bytype(kf, "catacomb-rand");
if (k) {
- key_data *kd = &k->k, kkd;
+ key_data *kd = k->k, *kkd;
+ key_incref(kd);
again:
switch (kd->e & KF_ENCMASK) {
case KENC_ENCRYPT: {
dstr d = DSTR_INIT;
key_fulltag(k, &d);
- if (key_punlock(d.buf, kd, &kkd))
+ if (key_punlock(&kkd, kd, d.buf))
die(EXIT_FAILURE, "error unlocking key `%s'", d.buf);
dstr_destroy(&d);
- kd = &kkd;
+ key_drop(kd);
+ kd = kkd;
} goto again;
default: {
dstr d = DSTR_INIT;
/* --- Key the generator --- */
rand_key(RAND_GLOBAL, kd->u.k.k, kd->u.k.sz);
- if (kd == &kkd)
- key_destroy(&kkd);
+ key_drop(kd);
}
}
{
unsigned sz;
unsigned m;
+ key_data *kd;
octet *p;
if (!k->bits)
m = (1 << (((k->bits - 1) & 7) + 1)) - 1;
k->r->ops->fill(k->r, p, sz);
*p &= m;
- key_binary(&k->k->k, p, sz);
- k->k->k.e |= KCAT_SYMM | KF_BURN;
+ kd = key_newbinary(KCAT_SYMM | KF_BURN, p, sz);
memset(p, 0, sz);
+ dolock(k, &kd, 0);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
sub_free(p, sz);
- dolock(k, &k->k->k, 0);
}
static void alg_des(keyopts *k)
{
unsigned sz;
octet *p;
+ key_data *kd;
int i;
if (!k->bits)
x = x ^ (x >> 1);
p[i] = (p[i] & 0xfe) | (x & 0x01);
}
- key_binary(&k->k->k, p, sz);
- k->k->k.e |= KCAT_SYMM | KF_BURN;
+ kd = key_newbinary(KCAT_SYMM | KF_BURN, p, sz);
memset(p, 0, sz);
+ dolock(k, &kd, 0);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
sub_free(p, sz);
- dolock(k, &k->k->k, 0);
}
static void alg_rsa(keyopts *k)
{
rsa_priv rp;
- key_data *kd;
+ key_data *kd, *kkd;
/* --- Sanity checking --- */
/* --- Allrighty then --- */
- kd = &k->k->k;
- key_structure(kd);
- mpkey(kd, "n", rp.n, KCAT_PUB);
- mpkey(kd, "e", rp.e, KCAT_PUB);
-
- kd = key_structcreate(kd, "private");
- key_structure(kd);
- mpkey(kd, "d", rp.d, KCAT_PRIV | KF_BURN);
- mpkey(kd, "p", rp.p, KCAT_PRIV | KF_BURN);
- mpkey(kd, "q", rp.q, KCAT_PRIV | KF_BURN);
- mpkey(kd, "q-inv", rp.q_inv, KCAT_PRIV | KF_BURN);
- mpkey(kd, "d-mod-p", rp.dp, KCAT_PRIV | KF_BURN);
- mpkey(kd, "d-mod-q", rp.dq, KCAT_PRIV | KF_BURN);
- dolock(k, kd, "private");
-
+ kd = key_newstruct();
+ key_structsteal(kd, "n", key_newmp(KCAT_PUB, rp.n));
+ key_structsteal(kd, "e", key_newmp(KCAT_PUB, rp.e));
+
+ kkd = key_newstruct();
+ key_structsteal(kkd, "d", key_newmp(KCAT_PRIV | KF_BURN, rp.d));
+ key_structsteal(kkd, "p", key_newmp(KCAT_PRIV | KF_BURN, rp.p));
+ key_structsteal(kkd, "q", key_newmp(KCAT_PRIV | KF_BURN, rp.q));
+ key_structsteal(kkd, "q-inv", key_newmp(KCAT_PRIV | KF_BURN, rp.q_inv));
+ key_structsteal(kkd, "d-mod-p", key_newmp(KCAT_PRIV | KF_BURN, rp.dp));
+ key_structsteal(kkd, "d-mod-q", key_newmp(KCAT_PRIV | KF_BURN, rp.dq));
+ dolock(k, &kkd, "private");
+ key_structsteal(kd, "private", kkd);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
rsa_privfree(&rp);
}
size_t sz;
dstr d = DSTR_INIT;
base64_ctx c;
- key_data *kd = &k->k->k;
+ key_data *kd;
dsa_seed ds;
/* --- Choose appropriate bit lengths if necessary --- */
if (!k->qbits)
k->qbits = 160;
if (!k->bits)
- k->bits = 768;
+ k->bits = 1024;
/* --- Allocate a seed block --- */
/* --- Store the parameters --- */
- key_structure(kd);
- mpkey(kd, "q", dp.q, KCAT_SHARE);
- mpkey(kd, "p", dp.p, KCAT_SHARE);
- mpkey(kd, "g", dp.g, KCAT_SHARE);
+ kd = key_newstruct();
+ key_structsteal(kd, "q", key_newmp(KCAT_SHARE, dp.q));
+ key_structsteal(kd, "p", key_newmp(KCAT_SHARE, dp.p));
+ key_structsteal(kd, "g", key_newmp(KCAT_SHARE, dp.g));
mp_drop(dp.q);
mp_drop(dp.p);
mp_drop(dp.g);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
/* --- Store the seed for future verification --- */
c.indent = "";
base64_encode(&c, ds.p, ds.sz, &d);
base64_encode(&c, 0, 0, &d);
+ DPUTZ(&d);
key_putattr(k->kf, k->k, "seed", d.buf);
DRESET(&d);
dstr_putf(&d, "%u", ds.count);
mp *q, *p, *g;
mp *x, *y;
mpmont mm;
- key_data *kd = &k->k->k;
+ key_data *kd, *kkd;
/* --- Get the shared parameters --- */
alg_dsaparam(k);
+ key_split(&k->k->k); kd = k->k->k;
q = getmp(kd, "q");
p = getmp(kd, "p");
g = getmp(kd, "g");
/* --- Store everything away --- */
- mpkey(kd, "y", y, KCAT_PUB);
+ key_structsteal(kd, "y", key_newmp(KCAT_PUB, y));
- kd = key_structcreate(kd, "private");
- key_structure(kd);
- mpkey(kd, "x", x, KCAT_PRIV | KF_BURN);
- dolock(k, kd, "private");
+ kkd = key_newstruct();
+ key_structsteal(kkd, "x", key_newmp(KCAT_PRIV | KF_BURN, x));
+ dolock(k, &kkd, "private");
+ key_structsteal(kd, "private", kkd);
mp_drop(x); mp_drop(y);
}
static void alg_dhparam(keyopts *k)
{
static const char *pl[] = { "p", "q", "g", 0 };
- key_data *kd = &k->k->k;
+ key_data *kd;
if (!copyparam(k, pl)) {
dh_param dp;
int rc;
die(EXIT_FAILURE, "Diffie-Hellman parameter generation failed");
done:
- key_structure(kd);
- mpkey(kd, "p", dp.p, KCAT_SHARE);
- mpkey(kd, "q", dp.q, KCAT_SHARE);
- mpkey(kd, "g", dp.g, KCAT_SHARE);
+ kd = key_newstruct();
+ key_structsteal(kd, "p", key_newmp(KCAT_SHARE, dp.p));
+ key_structsteal(kd, "q", key_newmp(KCAT_SHARE, dp.q));
+ key_structsteal(kd, "g", key_newmp(KCAT_SHARE, dp.g));
mp_drop(dp.q);
mp_drop(dp.p);
mp_drop(dp.g);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
}
}
mp *x, *y;
mp *p, *q, *g;
mpmont mm;
- key_data *kd = &k->k->k;
+ key_data *kd, *kkd;
/* --- Get the shared parameters --- */
alg_dhparam(k);
+ key_split(&k->k->k); kd = k->k->k;
p = getmp(kd, "p");
q = getmp(kd, "q");
g = getmp(kd, "g");
/* --- Store everything away --- */
- mpkey(kd, "y", y, KCAT_PUB);
+ key_structsteal(kd, "y", key_newmp(KCAT_PUB, y));
- kd = key_structcreate(kd, "private");
- key_structure(kd);
- mpkey(kd, "x", x, KCAT_PRIV | KF_BURN);
- dolock(k, kd, "private");
+ kkd = key_newstruct();
+ key_structsteal(kkd, "x", key_newmp(KCAT_PRIV | KF_BURN, x));
+ dolock(k, &kkd, "private");
+ key_structsteal(kd, "private", kkd);
mp_drop(x); mp_drop(y);
}
static void alg_bbs(keyopts *k)
{
bbs_priv bp;
- key_data *kd;
+ key_data *kd, *kkd;
/* --- Sanity checking --- */
/* --- Allrighty then --- */
- kd = &k->k->k;
- key_structure(kd);
- mpkey(kd, "n", bp.n, KCAT_PUB);
+ kd = key_newstruct();
+ key_structsteal(kd, "n", key_newmp(KCAT_PUB, bp.n));
- kd = key_structcreate(kd, "private");
- key_structure(kd);
- mpkey(kd, "p", bp.p, KCAT_PRIV | KF_BURN);
- mpkey(kd, "q", bp.q, KCAT_PRIV | KF_BURN);
- dolock(k, kd, "private");
+ kkd = key_newstruct();
+ key_structsteal(kkd, "p", key_newmp(KCAT_PRIV | KF_BURN, bp.p));
+ key_structsteal(kkd, "q", key_newmp(KCAT_PRIV | KF_BURN, bp.q));
+ dolock(k, &kkd, "private");
+ key_structsteal(kd, "private", kkd);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
bbs_privfree(&bp);
}
qd_parse qd;
group *g;
const char *e;
- key_data *kd = &k->k->k;
+ key_data *kd;
/* --- Decide on a field --- */
/* --- Write out the answer --- */
- key_structure(kd);
- mpkey(kd, "p", gb.p, KCAT_SHARE);
- mpkey(kd, "q", gb.q, KCAT_SHARE);
- mpkey(kd, "g", gb.g, KCAT_SHARE);
+ kd = key_newstruct();
+ key_structsteal(kd, "p", key_newmp(KCAT_SHARE, gb.p));
+ key_structsteal(kd, "q", key_newmp(KCAT_SHARE, gb.q));
+ key_structsteal(kd, "g", key_newmp(KCAT_SHARE, gb.g));
mp_drop(gb.q);
mp_drop(gb.p);
mp_drop(gb.g);
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
}
}
mp *x, *y;
mp *p, *q, *g;
gfreduce r;
- key_data *kd = &k->k->k;
+ key_data *kd, *kkd;
/* --- Get the shared parameters --- */
alg_binparam(k);
+ key_split(&k->k->k); kd = k->k->k;
p = getmp(kd, "p");
q = getmp(kd, "q");
g = getmp(kd, "g");
/* --- Store everything away --- */
- mpkey(kd, "y", y, KCAT_PUB);
+ key_structsteal(kd, "y", key_newmp(KCAT_PUB, y));
- kd = key_structcreate(kd, "private");
- key_structure(kd);
- mpkey(kd, "x", x, KCAT_PRIV | KF_BURN);
- dolock(k, kd, "private");
+ kkd = key_newstruct();
+ key_structsteal(kkd, "x", key_newmp(KCAT_PRIV | KF_BURN, x));
+ dolock(k, &kkd, "private");
+ key_structsteal(kd, "private", kkd);
mp_drop(x); mp_drop(y);
}
if (!copyparam(k, pl)) {
ec_info ei;
const char *e;
- key_data *kd = &k->k->k;
+ key_data *kd;
/* --- Decide on a curve --- */
/* --- Write out the answer --- */
- key_structure(kd);
- kd = key_structcreate(kd, "curve");
- key_string(kd, k->curve);
- kd->e |= KCAT_SHARE;
+ kd = key_newstruct();
+ key_structsteal(kd, "curve", key_newstring(KCAT_SHARE, k->curve));
+ key_setkeydata(k->kf, k->k, kd);
+ key_drop(kd);
}
}
static void alg_ec(keyopts *k)
{
- key_data *kd = &k->k->k;
+ key_data *kd;
key_data *kkd;
mp *x = MP_NEW;
ec p = EC_INIT;
/* --- Get the curve --- */
alg_ecparam(k);
+ key_split(&k->k->k); kd = k->k->k;
if ((kkd = key_structfind(kd, "curve")) == 0)
die(EXIT_FAILURE, "unexpected failure looking up subkey `curve')");
if ((kkd->e & KF_ENCMASK) != KENC_STRING)
/* --- Store everything away --- */
- kkd = key_structcreate(kd, "p");
- key_ec(kkd, &p);
- kkd->e |= KCAT_PUB;
- kkd = key_structcreate(kd, "private");
- key_structure(kkd);
- mpkey(kkd, "x", x, KCAT_PRIV | KF_BURN);
- dolock(k, kkd, "private");
+ key_structsteal(kd, "p", key_newec(KCAT_PUB, &p));
+
+ kkd = key_newstruct();
+ key_structsteal(kkd, "x", key_newmp(KCAT_PRIV | KF_BURN, x));
+ dolock(k, &kkd, "private");
+ key_structsteal(kd, "private", kkd);
/* --- Done --- */
/* --- Expiry dates get passed to @get_date@ for parsing --- */
case 'e':
- if (strncmp(optarg, "forever", strlen(optarg)) == 0)
+ if (strcmp(optarg, "forever") == 0)
exp = KEXP_FOREVER;
else {
exp = get_date(optarg, 0);
for (;;) {
uint32 id = rand_global.ops->word(&rand_global);
int err;
- k.k = key_new(&f, id, argv[optind], exp, &err);
- if (k.k)
+ if ((err = key_new(&f, id, argv[optind], exp, &k.k)) == 0)
break;
- if (err != KERR_DUPID)
+ else if (err != KERR_DUPID)
die(EXIT_FAILURE, "error adding new key: %s", key_strerror(err));
}
int err;
key *kk;
if (k.f & f_retag) {
- if ((kk = key_bytag(&f, tag)) != 0 && strcmp(kk->tag, tag) == 0)
+ if ((kk = key_bytag(&f, tag)) != 0 &&
+ kk->tag &&
+ strcmp(kk->tag, tag) == 0)
key_settag(&f, kk, 0);
}
if ((err = key_settag(&f, k.k, tag)) != 0)
if (ptag) {
if ((k.p = key_bytag(&f, ptag)) == 0)
die(EXIT_FAILURE, "parameter key `%s' not found", ptag);
- if ((k.p->k.e & KF_ENCMASK) != KENC_STRUCT)
+ if ((k.p->k->e & KF_ENCMASK) != KENC_STRUCT)
die(EXIT_FAILURE, "parameter key `%s' is not structured", ptag);
}
/* --- Done --- */
+ dstr_destroy(&k.tag);
doclose(&f);
return (0);
}
if (o->v <= 3)
fputs(" encrypted\n", stdout);
else {
- key_data kd;
- if (key_punlock(d->buf, k, &kd))
+ key_data *kd;
+ if (key_punlock(&kd, k, d->buf))
printf(" <failed to unlock %s>\n", d->buf);
else {
fputs(" encrypted", stdout);
- showkeydata(&kd, ind, o, d);
- key_destroy(&kd);
+ showkeydata(kd, ind, o, d);
+ key_drop(kd);
}
}
break;
*/
case KENC_STRUCT: {
- sym_iter i;
- key_struct *ks;
+ key_subkeyiter i;
+ const char *tag;
size_t n = d->len;
fputs(" {\n", stdout);
- for (sym_mkiter(&i, &k->u.s); (ks = sym_next(&i)) != 0; ) {
- if (!key_match(&ks->k, &o->kf))
+ for (key_mksubkeyiter(&i, k); key_nextsubkey(&i, &tag, &k); ) {
+ if (!key_match(k, &o->kf))
continue;
INDENT(ind + 2);
- printf("%s =", SYM_NAME(ks));
+ printf("%s =", tag);
d->len = n;
- dstr_putf(d, ".%s", SYM_NAME(ks));
- showkeydata(&ks->k, ind + 2, o, d);
+ dstr_putf(d, ".%s", tag);
+ showkeydata(k, ind + 2, o, d);
}
INDENT(ind);
fputs("}\n", stdout);
/* --- Skip the key if the filter doesn't match --- */
- if (!key_match(&k->k, &o->kf))
+ if (!key_match(k->k, &o->kf))
return;
/* --- Sort out the expiry and deletion times --- */
dstr d = DSTR_INIT;
fputs("key:", stdout);
key_fulltag(k, &d);
- showkeydata(&k->k, 0, o, &d);
+ showkeydata(k->k, 0, o, &d);
dstr_destroy(&d);
}
return (0);
}
+/* --- @cmd_getattr@ --- */
+
+static int cmd_getattr(int argc, char *argv[])
+{
+ key_file f;
+ key *k;
+ dstr d = DSTR_INIT;
+ const char *p;
+
+ if (argc != 3)
+ die(EXIT_FAILURE, "Usage: getattr TAG ATTR");
+ doopen(&f, KOPEN_READ);
+ if ((k = key_bytag(&f, argv[1])) == 0)
+ die(EXIT_FAILURE, "key `%s' not found", argv[1]);
+ key_fulltag(k, &d);
+ if ((p = key_getattr(&f, k, argv[2])) == 0)
+ die(EXIT_FAILURE, "no attribute `%s' for key `%s'", argv[2], d.buf);
+ puts(p);
+ dstr_destroy(&d);
+ doclose(&f);
+ return (0);
+}
+
/* --- @cmd_finger@ --- */
static void fingerprint(key *k, const gchash *ch, const key_filter *kf)
fpr = GH_DONE(h, 0);
if (memcmp(fpr, buf, ch->hashsz) != 0)
die(EXIT_FAILURE, "key fingerprint mismatch");
+ doclose(&f);
return (0);
}
{
key_file f;
key *k;
- key_data *kd;
+ key_data **kd;
dstr d = DSTR_INIT;
if (argc != 2)
doopen(&f, KOPEN_WRITE);
if (key_qtag(&f, argv[1], &d, &k, &kd))
die(EXIT_FAILURE, "key `%s' not found", argv[1]);
- if (kd->e == KENC_ENCRYPT && key_punlock(d.buf, kd, kd))
+ if ((*kd)->e == KENC_ENCRYPT && key_punlock(kd, 0, d.buf))
die(EXIT_FAILURE, "couldn't unlock key `%s'", d.buf);
- if (key_plock(d.buf, kd, kd))
+ if (key_plock(kd, 0, d.buf))
die(EXIT_FAILURE, "failed to lock key `%s'", d.buf);
f.f |= KF_MODIFIED;
doclose(&f);
{
key_file f;
key *k;
- key_data *kd;
+ key_data **kd;
dstr d = DSTR_INIT;
if (argc != 2)
doopen(&f, KOPEN_WRITE);
if (key_qtag(&f, argv[1], &d, &k, &kd))
die(EXIT_FAILURE, "key `%s' not found", argv[1]);
- if (kd->e != KENC_ENCRYPT)
+ if ((*kd)->e != KENC_ENCRYPT)
die(EXIT_FAILURE, "key `%s' is not encrypted", d.buf);
- if (kd->e == KENC_ENCRYPT && key_punlock(d.buf, kd, kd))
+ if (key_punlock(kd, 0, d.buf))
die(EXIT_FAILURE, "couldn't unlock key `%s'", d.buf);
f.f |= KF_MODIFIED;
doclose(&f);
int i;
int rc = 0;
key_filter kf = { 0, 0 };
+ dstr d = DSTR_INIT;
+ const char *outfile = 0;
FILE *fp;
for (;;) {
die(EXIT_FAILURE, "Usage: extract [-f FILTER] FILE [TAG...]");
if (strcmp(*argv, "-") == 0)
fp = stdout;
- else if (!(fp = fopen(*argv, "w"))) {
- die(EXIT_FAILURE, "couldn't open `%s' for writing: %s",
- *argv, strerror(errno));
+ else {
+ outfile = *argv;
+ dstr_putf(&d, "%s.new", outfile);
+ if (!(fp = fopen(d.buf, "w"))) {
+ die(EXIT_FAILURE, "couldn't open `%s' for writing: %s",
+ d.buf, strerror(errno));
+ }
}
doopen(&f, KOPEN_READ);
}
}
}
- if (fclose(fp))
+ if (fclose(fp) || (outfile && rename(d.buf, outfile)))
die(EXIT_FAILURE, "error writing file: %s", strerror(errno));
+ dstr_destroy(&d);
doclose(&f);
return (rc);
}
{ "expire", cmd_expire, "expire TAG..." },
{ "delete", cmd_delete, "delete TAG..." },
{ "setattr", cmd_setattr, "setattr TAG ATTR..." },
+ { "getattr", cmd_getattr, "getattr TAG ATTR" },
{ "comment", cmd_comment, "comment TAG [COMMENT]" },
{ "lock", cmd_lock, "lock QTAG" },
{ "unlock", cmd_unlock, "unlock QTAG" },