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|
/* $OpenBSD: ca.c,v 1.27 2017/07/28 13:58:52 bluhm Exp $ */
/*
* Copyright (c) 2014 Reyk Floeter <reyk@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/types.h>
#include <sys/queue.h>
#include <sys/uio.h>
#include <unistd.h>
#include <string.h>
#include <stdlib.h>
#include <poll.h>
#include <imsg.h>
#include <openssl/bio.h>
#include <openssl/pem.h>
#include <openssl/evp.h>
#include <openssl/rsa.h>
#include <openssl/engine.h>
#include "relayd.h"
void ca_init(struct privsep *, struct privsep_proc *p, void *);
void ca_launch(void);
int ca_dispatch_parent(int, struct privsep_proc *, struct imsg *);
int ca_dispatch_relay(int, struct privsep_proc *, struct imsg *);
int rsae_pub_enc(int, const u_char *, u_char *, RSA *, int);
int rsae_pub_dec(int,const u_char *, u_char *, RSA *, int);
int rsae_priv_enc(int, const u_char *, u_char *, RSA *, int);
int rsae_priv_dec(int, const u_char *, u_char *, RSA *, int);
int rsae_mod_exp(BIGNUM *, const BIGNUM *, RSA *, BN_CTX *);
int rsae_bn_mod_exp(BIGNUM *, const BIGNUM *, const BIGNUM *,
const BIGNUM *, BN_CTX *, BN_MONT_CTX *);
int rsae_init(RSA *);
int rsae_finish(RSA *);
int rsae_sign(int, const u_char *, u_int, u_char *, u_int *,
const RSA *);
int rsae_verify(int dtype, const u_char *m, u_int, const u_char *,
u_int, const RSA *);
int rsae_keygen(RSA *, int, BIGNUM *, BN_GENCB *);
static struct relayd *env = NULL;
static struct privsep_proc procs[] = {
{ "parent", PROC_PARENT, ca_dispatch_parent },
{ "relay", PROC_RELAY, ca_dispatch_relay },
};
void
ca(struct privsep *ps, struct privsep_proc *p)
{
env = ps->ps_env;
proc_run(ps, p, procs, nitems(procs), ca_init, NULL);
}
void
ca_init(struct privsep *ps, struct privsep_proc *p, void *arg)
{
if (pledge("stdio recvfd", NULL) == -1)
fatal("pledge");
if (config_init(ps->ps_env) == -1)
fatal("failed to initialize configuration");
env->sc_id = getpid() & 0xffff;
}
void
hash_x509(X509 *cert, char *hash, size_t hashlen)
{
static const char hex[] = "0123456789abcdef";
size_t off;
char digest[EVP_MAX_MD_SIZE];
int dlen, i;
if (X509_digest(cert, EVP_sha256(), digest, &dlen) != 1)
fatalx("%s: X509_digest failed", __func__);
if (hashlen < 2 * dlen + sizeof("SHA256:"))
fatalx("%s: hash buffer to small", __func__);
off = strlcpy(hash, "SHA256:", hashlen);
for (i = 0; i < dlen; i++) {
hash[off++] = hex[(digest[i] >> 4) & 0x0f];
hash[off++] = hex[digest[i] & 0x0f];
}
hash[off] = 0;
}
void
ca_launch(void)
{
char hash[TLS_CERT_HASH_SIZE];
BIO *in = NULL;
EVP_PKEY *pkey = NULL;
struct relay *rlay;
X509 *cert = NULL;
TAILQ_FOREACH(rlay, env->sc_relays, rl_entry) {
if ((rlay->rl_conf.flags & (F_TLS|F_TLSCLIENT)) == 0)
continue;
if (rlay->rl_conf.tls_cert_len) {
if ((in = BIO_new_mem_buf(rlay->rl_tls_cert,
rlay->rl_conf.tls_cert_len)) == NULL)
fatalx("ca_launch: cert");
if ((cert = PEM_read_bio_X509(in, NULL,
NULL, NULL)) == NULL)
fatalx("ca_launch: cert");
hash_x509(cert, hash, sizeof(hash));
BIO_free(in);
X509_free(cert);
purge_key(&rlay->rl_tls_cert,
rlay->rl_conf.tls_cert_len);
}
if (rlay->rl_conf.tls_key_len) {
if ((in = BIO_new_mem_buf(rlay->rl_tls_key,
rlay->rl_conf.tls_key_len)) == NULL)
fatalx("%s: key", __func__);
if ((pkey = PEM_read_bio_PrivateKey(in,
NULL, NULL, NULL)) == NULL)
fatalx("%s: PEM", __func__);
BIO_free(in);
rlay->rl_tls_pkey = pkey;
if (pkey_add(env, pkey, hash) == NULL)
fatalx("tls pkey");
purge_key(&rlay->rl_tls_key,
rlay->rl_conf.tls_key_len);
}
if (rlay->rl_conf.tls_cacert_len) {
if ((in = BIO_new_mem_buf(rlay->rl_tls_cacert,
rlay->rl_conf.tls_cacert_len)) == NULL)
fatalx("ca_launch: cacert");
if ((cert = PEM_read_bio_X509(in, NULL,
NULL, NULL)) == NULL)
fatalx("ca_launch: cacert");
hash_x509(cert, hash, sizeof(hash));
BIO_free(in);
X509_free(cert);
purge_key(&rlay->rl_tls_cacert,
rlay->rl_conf.tls_cacert_len);
}
if (rlay->rl_conf.tls_cakey_len) {
if ((in = BIO_new_mem_buf(rlay->rl_tls_cakey,
rlay->rl_conf.tls_cakey_len)) == NULL)
fatalx("%s: key", __func__);
if ((pkey = PEM_read_bio_PrivateKey(in,
NULL, NULL, NULL)) == NULL)
fatalx("%s: PEM", __func__);
BIO_free(in);
rlay->rl_tls_capkey = pkey;
if (pkey_add(env, pkey, hash) == NULL)
fatalx("ca pkey");
purge_key(&rlay->rl_tls_cakey,
rlay->rl_conf.tls_cakey_len);
}
}
}
int
ca_dispatch_parent(int fd, struct privsep_proc *p, struct imsg *imsg)
{
switch (imsg->hdr.type) {
case IMSG_CFG_RELAY:
config_getrelay(env, imsg);
break;
case IMSG_CFG_DONE:
config_getcfg(env, imsg);
break;
case IMSG_CTL_START:
ca_launch();
break;
case IMSG_CTL_RESET:
config_getreset(env, imsg);
break;
default:
return (-1);
}
return (0);
}
int
ca_dispatch_relay(int fd, struct privsep_proc *p, struct imsg *imsg)
{
struct ctl_keyop cko;
EVP_PKEY *pkey;
RSA *rsa;
u_char *from = NULL, *to = NULL;
struct iovec iov[2];
int c = 0;
switch (imsg->hdr.type) {
case IMSG_CA_PRIVENC:
case IMSG_CA_PRIVDEC:
IMSG_SIZE_CHECK(imsg, (&cko));
bcopy(imsg->data, &cko, sizeof(cko));
if (cko.cko_proc > env->sc_conf.prefork_relay)
fatalx("%s: invalid relay proc", __func__);
if (IMSG_DATA_SIZE(imsg) != (sizeof(cko) + cko.cko_flen))
fatalx("%s: invalid key operation", __func__);
if ((pkey = pkey_find(env, cko.cko_hash)) == NULL)
fatalx("%s: invalid relay hash '%s'",
__func__, cko.cko_hash);
if ((rsa = EVP_PKEY_get1_RSA(pkey)) == NULL)
fatalx("%s: invalid relay key", __func__);
DPRINTF("%s:%d: key hash %s proc %d",
__func__, __LINE__, cko.cko_hash, cko.cko_proc);
from = (u_char *)imsg->data + sizeof(cko);
if ((to = calloc(1, cko.cko_tlen)) == NULL)
fatalx("%s: calloc", __func__);
switch (imsg->hdr.type) {
case IMSG_CA_PRIVENC:
cko.cko_tlen = RSA_private_encrypt(cko.cko_flen,
from, to, rsa, cko.cko_padding);
break;
case IMSG_CA_PRIVDEC:
cko.cko_tlen = RSA_private_decrypt(cko.cko_flen,
from, to, rsa, cko.cko_padding);
break;
}
iov[c].iov_base = &cko;
iov[c++].iov_len = sizeof(cko);
if (cko.cko_tlen) {
iov[c].iov_base = to;
iov[c++].iov_len = cko.cko_tlen;
}
proc_composev_imsg(env->sc_ps, PROC_RELAY, cko.cko_proc,
imsg->hdr.type, -1, -1, iov, c);
free(to);
RSA_free(rsa);
break;
default:
return (-1);
}
return (0);
}
/*
* RSA privsep engine (called from unprivileged processes)
*/
const RSA_METHOD *rsa_default = NULL;
static RSA_METHOD rsae_method = {
"RSA privsep engine",
rsae_pub_enc,
rsae_pub_dec,
rsae_priv_enc,
rsae_priv_dec,
rsae_mod_exp,
rsae_bn_mod_exp,
rsae_init,
rsae_finish,
0,
NULL,
rsae_sign,
rsae_verify,
rsae_keygen
};
static int
rsae_send_imsg(int flen, const u_char *from, u_char *to, RSA *rsa,
int padding, u_int cmd)
{
struct privsep *ps = env->sc_ps;
struct pollfd pfd[1];
struct ctl_keyop cko;
int ret = 0;
char *hash;
struct iovec iov[2];
struct imsgbuf *ibuf;
struct imsgev *iev;
struct imsg imsg;
int n, done = 0, cnt = 0;
u_char *toptr;
if ((hash = RSA_get_ex_data(rsa, 0)) == NULL)
return (0);
iev = proc_iev(ps, PROC_CA, ps->ps_instance);
ibuf = &iev->ibuf;
/*
* XXX this could be nicer...
*/
(void)strlcpy(cko.cko_hash, hash, sizeof(cko.cko_hash));
cko.cko_proc = ps->ps_instance;
cko.cko_flen = flen;
cko.cko_tlen = RSA_size(rsa);
cko.cko_padding = padding;
iov[cnt].iov_base = &cko;
iov[cnt++].iov_len = sizeof(cko);
iov[cnt].iov_base = (void *)(uintptr_t)from;
iov[cnt++].iov_len = flen;
/*
* Send a synchronous imsg because we cannot defer the RSA
* operation in OpenSSL's engine layer.
*/
imsg_composev(ibuf, cmd, 0, 0, -1, iov, cnt);
if (imsg_flush(ibuf) == -1)
log_warn("%s: imsg_flush", __func__);
pfd[0].fd = ibuf->fd;
pfd[0].events = POLLIN;
while (!done) {
switch (poll(pfd, 1, RELAY_TLS_PRIV_TIMEOUT)) {
case -1:
fatal("%s: poll", __func__);
case 0:
log_warnx("%s: poll timeout", __func__);
break;
default:
break;
}
if ((n = imsg_read(ibuf)) == -1 && errno != EAGAIN)
fatalx("imsg_read");
if (n == 0)
fatalx("pipe closed");
while (!done) {
if ((n = imsg_get(ibuf, &imsg)) == -1)
fatalx("imsg_get error");
if (n == 0)
break;
if (imsg.hdr.type != cmd)
fatalx("invalid response");
IMSG_SIZE_CHECK(&imsg, (&cko));
memcpy(&cko, imsg.data, sizeof(cko));
if (IMSG_DATA_SIZE(&imsg) !=
(sizeof(cko) + cko.cko_tlen))
fatalx("data size");
ret = cko.cko_tlen;
if (ret) {
toptr = (u_char *)imsg.data + sizeof(cko);
memcpy(to, toptr, ret);
}
done = 1;
imsg_free(&imsg);
}
}
imsg_event_add(iev);
return (ret);
}
int
rsae_pub_enc(int flen,const u_char *from, u_char *to, RSA *rsa,int padding)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->rsa_pub_enc(flen, from, to, rsa, padding));
}
int
rsae_pub_dec(int flen,const u_char *from, u_char *to, RSA *rsa,int padding)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->rsa_pub_dec(flen, from, to, rsa, padding));
}
int
rsae_priv_enc(int flen, const u_char *from, u_char *to, RSA *rsa, int padding)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsae_send_imsg(flen, from, to, rsa, padding,
IMSG_CA_PRIVENC));
}
int
rsae_priv_dec(int flen, const u_char *from, u_char *to, RSA *rsa, int padding)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsae_send_imsg(flen, from, to, rsa, padding,
IMSG_CA_PRIVDEC));
}
int
rsae_mod_exp(BIGNUM *r0, const BIGNUM *I, RSA *rsa, BN_CTX *ctx)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->rsa_mod_exp(r0, I, rsa, ctx));
}
int
rsae_bn_mod_exp(BIGNUM *r, const BIGNUM *a, const BIGNUM *p,
const BIGNUM *m, BN_CTX *ctx, BN_MONT_CTX *m_ctx)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->bn_mod_exp(r, a, p, m, ctx, m_ctx));
}
int
rsae_init(RSA *rsa)
{
DPRINTF("%s:%d", __func__, __LINE__);
if (rsa_default->init == NULL)
return (1);
return (rsa_default->init(rsa));
}
int
rsae_finish(RSA *rsa)
{
DPRINTF("%s:%d", __func__, __LINE__);
if (rsa_default->finish == NULL)
return (1);
return (rsa_default->finish(rsa));
}
int
rsae_sign(int type, const u_char *m, u_int m_length, u_char *sigret,
u_int *siglen, const RSA *rsa)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->rsa_sign(type, m, m_length,
sigret, siglen, rsa));
}
int
rsae_verify(int dtype, const u_char *m, u_int m_length, const u_char *sigbuf,
u_int siglen, const RSA *rsa)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->rsa_verify(dtype, m, m_length,
sigbuf, siglen, rsa));
}
int
rsae_keygen(RSA *rsa, int bits, BIGNUM *e, BN_GENCB *cb)
{
DPRINTF("%s:%d", __func__, __LINE__);
return (rsa_default->rsa_keygen(rsa, bits, e, cb));
}
void
ca_engine_init(struct relayd *x_env)
{
ENGINE *e = NULL;
const char *errstr, *name;
if (env == NULL)
env = x_env;
if (rsa_default != NULL)
return;
if ((e = ENGINE_get_default_RSA()) == NULL) {
if ((e = ENGINE_new()) == NULL) {
errstr = "ENGINE_new";
goto fail;
}
if (!ENGINE_set_name(e, rsae_method.name)) {
errstr = "ENGINE_set_name";
goto fail;
}
if ((rsa_default = RSA_get_default_method()) == NULL) {
errstr = "RSA_get_default_method";
goto fail;
}
} else if ((rsa_default = ENGINE_get_RSA(e)) == NULL) {
errstr = "ENGINE_get_RSA";
goto fail;
}
if ((name = ENGINE_get_name(e)) == NULL)
name = "unknown RSA engine";
log_debug("%s: using %s", __func__, name);
if (rsa_default->flags & RSA_FLAG_SIGN_VER)
fatalx("unsupported RSA engine");
if (rsa_default->rsa_mod_exp == NULL)
rsae_method.rsa_mod_exp = NULL;
if (rsa_default->bn_mod_exp == NULL)
rsae_method.bn_mod_exp = NULL;
if (rsa_default->rsa_keygen == NULL)
rsae_method.rsa_keygen = NULL;
rsae_method.flags = rsa_default->flags |
RSA_METHOD_FLAG_NO_CHECK;
rsae_method.app_data = rsa_default->app_data;
if (!ENGINE_set_RSA(e, &rsae_method)) {
errstr = "ENGINE_set_RSA";
goto fail;
}
if (!ENGINE_set_default_RSA(e)) {
errstr = "ENGINE_set_default_RSA";
goto fail;
}
return;
fail:
fatalx("%s: %s", __func__, errstr);
}
|