static void
dns_dispatch_host(struct asr_result *ar, void *arg)
{
struct dns_session *s;
struct dns_lookup *lookup = arg;
struct addrinfo *ai;
s = lookup->session;
for (ai = ar->ar_addrinfo; ai; ai = ai->ai_next) {
s->mxfound++;
m_create(s->p, IMSG_MTA_DNS_HOST, 0, 0, -1);
m_add_id(s->p, s->reqid);
m_add_sockaddr(s->p, ai->ai_addr);
m_add_int(s->p, lookup->preference);
m_close(s->p);
}
free(lookup);
if (ar->ar_addrinfo)
asr_freeaddrinfo(ar->ar_addrinfo);
if (ar->ar_gai_errno)
s->error = ar->ar_gai_errno;
if (--s->refcount)
return;
m_create(s->p, IMSG_MTA_DNS_HOST_END, 0, 0, -1);
m_add_id(s->p, s->reqid);
m_add_int(s->p, s->mxfound ? DNS_OK : DNS_ENOTFOUND);
m_close(s->p);
free(s);
}
/* ARGSUSED */
static void
control_dispatch_ext(struct mproc *p, struct imsg *imsg)
{
struct sockaddr_storage ss;
struct ctl_conn *c;
int v;
struct stat_kv *kvp;
char *key;
struct stat_value val;
size_t len;
uint64_t evpid;
uint32_t msgid;
c = p->data;
if (imsg == NULL) {
control_close(c);
return;
}
if (imsg->hdr.peerid != IMSG_VERSION) {
m_compose(p, IMSG_CTL_FAIL, IMSG_VERSION, 0, -1, NULL, 0);
return;
}
switch (imsg->hdr.type) {
case IMSG_CTL_SMTP_SESSION:
if (env->sc_flags & (SMTPD_SMTP_PAUSED | SMTPD_EXITING)) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
m_compose(p_pony, IMSG_CTL_SMTP_SESSION, c->id, 0, -1,
&c->euid, sizeof(c->euid));
return;
case IMSG_CTL_GET_DIGEST:
if (c->euid)
goto badcred;
digest.timestamp = time(NULL);
m_compose(p, IMSG_CTL_GET_DIGEST, 0, 0, -1, &digest, sizeof digest);
return;
case IMSG_CTL_GET_STATS:
if (c->euid)
goto badcred;
kvp = imsg->data;
if (! stat_backend->iter(&kvp->iter, &key, &val))
kvp->iter = NULL;
else {
(void)strlcpy(kvp->key, key, sizeof kvp->key);
kvp->val = val;
}
m_compose(p, IMSG_CTL_GET_STATS, 0, 0, -1, kvp, sizeof *kvp);
return;
case IMSG_CTL_SHUTDOWN:
/* NEEDS_FIX */
log_debug("debug: received shutdown request");
if (c->euid)
goto badcred;
if (env->sc_flags & SMTPD_EXITING) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
env->sc_flags |= SMTPD_EXITING;
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
m_compose(p_parent, IMSG_CTL_SHUTDOWN, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_VERBOSE:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof(verbose))
goto badcred;
memcpy(&v, imsg->data, sizeof(v));
verbose = v;
log_verbose(verbose);
control_broadcast_verbose(IMSG_CTL_VERBOSE, verbose);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_TRACE_ENABLE:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof(verbose))
goto badcred;
memcpy(&v, imsg->data, sizeof(v));
verbose |= v;
log_verbose(verbose);
control_broadcast_verbose(IMSG_CTL_VERBOSE, verbose);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_TRACE_DISABLE:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof(verbose))
goto badcred;
memcpy(&v, imsg->data, sizeof(v));
verbose &= ~v;
log_verbose(verbose);
control_broadcast_verbose(IMSG_CTL_VERBOSE, verbose);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_PROFILE_ENABLE:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof(verbose))
goto badcred;
memcpy(&v, imsg->data, sizeof(v));
profiling |= v;
control_broadcast_verbose(IMSG_CTL_PROFILE, profiling);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_PROFILE_DISABLE:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof(verbose))
goto badcred;
memcpy(&v, imsg->data, sizeof(v));
profiling &= ~v;
control_broadcast_verbose(IMSG_CTL_PROFILE, profiling);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_PAUSE_EVP:
if (c->euid)
goto badcred;
imsg->hdr.peerid = c->id;
m_forward(p_scheduler, imsg);
return;
case IMSG_CTL_PAUSE_MDA:
if (c->euid)
goto badcred;
if (env->sc_flags & SMTPD_MDA_PAUSED) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
log_info("info: mda paused");
env->sc_flags |= SMTPD_MDA_PAUSED;
m_compose(p_queue, IMSG_CTL_PAUSE_MDA, 0, 0, -1, NULL, 0);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_PAUSE_MTA:
if (c->euid)
goto badcred;
if (env->sc_flags & SMTPD_MTA_PAUSED) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
log_info("info: mta paused");
env->sc_flags |= SMTPD_MTA_PAUSED;
m_compose(p_queue, IMSG_CTL_PAUSE_MTA, 0, 0, -1, NULL, 0);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_PAUSE_SMTP:
if (c->euid)
goto badcred;
if (env->sc_flags & SMTPD_SMTP_PAUSED) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
log_info("info: smtp paused");
env->sc_flags |= SMTPD_SMTP_PAUSED;
m_compose(p_pony, IMSG_CTL_PAUSE_SMTP, 0, 0, -1, NULL, 0);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_RESUME_EVP:
if (c->euid)
goto badcred;
imsg->hdr.peerid = c->id;
m_forward(p_scheduler, imsg);
return;
case IMSG_CTL_RESUME_MDA:
if (c->euid)
goto badcred;
if (! (env->sc_flags & SMTPD_MDA_PAUSED)) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
log_info("info: mda resumed");
env->sc_flags &= ~SMTPD_MDA_PAUSED;
m_compose(p_queue, IMSG_CTL_RESUME_MDA, 0, 0, -1, NULL, 0);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_RESUME_MTA:
if (c->euid)
goto badcred;
if (!(env->sc_flags & SMTPD_MTA_PAUSED)) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
log_info("info: mta resumed");
env->sc_flags &= ~SMTPD_MTA_PAUSED;
m_compose(p_queue, IMSG_CTL_RESUME_MTA, 0, 0, -1, NULL, 0);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_RESUME_SMTP:
if (c->euid)
goto badcred;
if (!(env->sc_flags & SMTPD_SMTP_PAUSED)) {
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
return;
}
log_info("info: smtp resumed");
env->sc_flags &= ~SMTPD_SMTP_PAUSED;
m_forward(p_pony, imsg);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_RESUME_ROUTE:
if (c->euid)
goto badcred;
m_forward(p_pony, imsg);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_LIST_MESSAGES:
if (c->euid)
goto badcred;
m_compose(p_scheduler, IMSG_CTL_LIST_MESSAGES, c->id, 0, -1,
imsg->data, imsg->hdr.len - sizeof(imsg->hdr));
return;
case IMSG_CTL_LIST_ENVELOPES:
if (c->euid)
goto badcred;
m_compose(p_scheduler, IMSG_CTL_LIST_ENVELOPES, c->id, 0, -1,
imsg->data, imsg->hdr.len - sizeof(imsg->hdr));
return;
case IMSG_CTL_MTA_SHOW_HOSTS:
case IMSG_CTL_MTA_SHOW_RELAYS:
case IMSG_CTL_MTA_SHOW_ROUTES:
case IMSG_CTL_MTA_SHOW_HOSTSTATS:
case IMSG_CTL_MTA_SHOW_BLOCK:
if (c->euid)
goto badcred;
imsg->hdr.peerid = c->id;
m_forward(p_pony, imsg);
return;
case IMSG_CTL_SHOW_STATUS:
if (c->euid)
goto badcred;
m_compose(p, IMSG_CTL_SHOW_STATUS, 0, 0, -1, &env->sc_flags,
sizeof(env->sc_flags));
return;
case IMSG_CTL_MTA_BLOCK:
case IMSG_CTL_MTA_UNBLOCK:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE <= sizeof(ss))
goto invalid;
memmove(&ss, imsg->data, sizeof(ss));
m_create(p_pony, imsg->hdr.type, c->id, 0, -1);
m_add_sockaddr(p_pony, (struct sockaddr *)&ss);
m_add_string(p_pony, (char *)imsg->data + sizeof(ss));
m_close(p_pony);
return;
case IMSG_CTL_SCHEDULE:
if (c->euid)
goto badcred;
imsg->hdr.peerid = c->id;
m_forward(p_scheduler, imsg);
return;
case IMSG_CTL_REMOVE:
if (c->euid)
goto badcred;
imsg->hdr.peerid = c->id;
m_forward(p_scheduler, imsg);
return;
case IMSG_CTL_UPDATE_TABLE:
if (c->euid)
goto badcred;
/* table name too long */
len = strlen(imsg->data);
if (len >= LINE_MAX)
goto invalid;
m_forward(p_lka, imsg);
m_compose(p, IMSG_CTL_OK, 0, 0, -1, NULL, 0);
return;
case IMSG_CTL_DISCOVER_EVPID:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof evpid)
goto invalid;
memmove(&evpid, imsg->data, sizeof evpid);
m_create(p_queue, imsg->hdr.type, c->id, 0, -1);
m_add_evpid(p_queue, evpid);
m_close(p_queue);
return;
case IMSG_CTL_DISCOVER_MSGID:
case IMSG_CTL_UNCORRUPT_MSGID:
if (c->euid)
goto badcred;
if (imsg->hdr.len - IMSG_HEADER_SIZE != sizeof msgid)
goto invalid;
memmove(&msgid, imsg->data, sizeof msgid);
m_create(p_queue, imsg->hdr.type, c->id, 0, -1);
m_add_msgid(p_queue, msgid);
m_close(p_queue);
return;
default:
log_debug("debug: control_dispatch_ext: "
"error handling %s imsg",
imsg_to_str(imsg->hdr.type));
return;
}
badcred:
invalid:
m_compose(p, IMSG_CTL_FAIL, 0, 0, -1, NULL, 0);
}
static void
mta_connect(struct mta_session *s)
{
struct sockaddr_storage ss;
struct sockaddr *sa;
int portno;
const char *schema = "smtp+tls://";
if (s->helo == NULL) {
if (s->relay->helotable && s->route->src->sa) {
m_create(p_lka, IMSG_LKA_HELO, 0, 0, -1);
m_add_id(p_lka, s->id);
m_add_string(p_lka, s->relay->helotable);
m_add_sockaddr(p_lka, s->route->src->sa);
m_close(p_lka);
tree_xset(&wait_helo, s->id, s);
s->flags |= MTA_WAIT;
return;
}
else if (s->relay->heloname)
s->helo = xstrdup(s->relay->heloname, "mta_connect");
else
s->helo = xstrdup(env->sc_hostname, "mta_connect");
}
io_clear(&s->io);
iobuf_clear(&s->iobuf);
s->use_smtps = s->use_starttls = s->use_smtp_tls = 0;
switch (s->attempt) {
case 0:
if (s->flags & MTA_FORCE_SMTPS)
s->use_smtps = 1; /* smtps */
else if (s->flags & (MTA_FORCE_TLS|MTA_FORCE_ANYSSL))
s->use_starttls = 1; /* tls, tls+smtps */
else if (!(s->flags & MTA_FORCE_PLAIN))
s->use_smtp_tls = 1;
break;
case 1:
if (s->flags & MTA_FORCE_ANYSSL) {
s->use_smtps = 1; /* tls+smtps */
break;
}
default:
mta_free(s);
return;
}
portno = s->use_smtps ? 465 : 25;
/* Override with relay-specified port */
if (s->relay->port)
portno = s->relay->port;
memmove(&ss, s->route->dst->sa, s->route->dst->sa->sa_len);
sa = (struct sockaddr *)&ss;
if (sa->sa_family == AF_INET)
((struct sockaddr_in *)sa)->sin_port = htons(portno);
else if (sa->sa_family == AF_INET6)
((struct sockaddr_in6 *)sa)->sin6_port = htons(portno);
s->attempt += 1;
if (s->use_smtp_tls)
schema = "smtp+tls://";
else if (s->use_starttls)
schema = "tls://";
else if (s->use_smtps)
schema = "smtps://";
else if (s->flags & MTA_LMTP)
schema = "lmtp://";
else
schema = "smtp://";
log_info("smtp-out: Connecting to %s%s:%d (%s) on session"
" %016"PRIx64"...", schema, sa_to_text(s->route->dst->sa),
portno, s->route->dst->ptrname, s->id);
mta_enter_state(s, MTA_INIT);
iobuf_xinit(&s->iobuf, 0, 0, "mta_connect");
io_init(&s->io, -1, s, mta_io, &s->iobuf);
io_set_timeout(&s->io, 300000);
if (io_connect(&s->io, sa, s->route->src->sa) == -1) {
/*
* This error is most likely a "no route",
* so there is no need to try again.
*/
log_debug("debug: mta: io_connect failed: %s", s->io.error);
if (errno == EADDRNOTAVAIL)
mta_source_error(s->relay, s->route, s->io.error);
else
mta_error(s, "Connection failed: %s", s->io.error);
mta_free(s);
}
}
static void
lka_imsg(struct mproc *p, struct imsg *imsg)
{
struct rule *rule;
struct table *table;
void *tmp;
int ret;
const char *key, *val;
struct ssl *ssl;
struct iovec iov[3];
static struct dict *ssl_dict;
static struct dict *tables_dict;
static struct table *table_last;
static struct ca_vrfy_req_msg *req_ca_vrfy_smtp = NULL;
static struct ca_vrfy_req_msg *req_ca_vrfy_mta = NULL;
struct ca_vrfy_req_msg *req_ca_vrfy_chain;
struct ca_vrfy_resp_msg resp_ca_vrfy;
struct ca_cert_req_msg *req_ca_cert;
struct ca_cert_resp_msg resp_ca_cert;
struct sockaddr_storage ss;
struct userinfo userinfo;
struct addrname addrname;
struct envelope evp;
struct msg m;
union lookup lk;
char buf[SMTPD_MAXLINESIZE];
const char *tablename, *username, *password, *label;
uint64_t reqid;
size_t i;
int v;
if (imsg->hdr.type == IMSG_DNS_HOST ||
imsg->hdr.type == IMSG_DNS_PTR ||
imsg->hdr.type == IMSG_DNS_MX ||
imsg->hdr.type == IMSG_DNS_MX_PREFERENCE) {
dns_imsg(p, imsg);
return;
}
if (p->proc == PROC_SMTP) {
switch (imsg->hdr.type) {
case IMSG_LKA_EXPAND_RCPT:
m_msg(&m, imsg);
m_get_id(&m, &reqid);
m_get_envelope(&m, &evp);
m_end(&m);
lka_session(reqid, &evp);
return;
case IMSG_LKA_SSL_INIT:
req_ca_cert = imsg->data;
resp_ca_cert.reqid = req_ca_cert->reqid;
ssl = dict_get(env->sc_ssl_dict, req_ca_cert->name);
if (ssl == NULL) {
resp_ca_cert.status = CA_FAIL;
m_compose(p, IMSG_LKA_SSL_INIT, 0, 0, -1, &resp_ca_cert,
sizeof(resp_ca_cert));
return;
}
resp_ca_cert.status = CA_OK;
resp_ca_cert.cert_len = ssl->ssl_cert_len;
resp_ca_cert.key_len = ssl->ssl_key_len;
iov[0].iov_base = &resp_ca_cert;
iov[0].iov_len = sizeof(resp_ca_cert);
iov[1].iov_base = ssl->ssl_cert;
iov[1].iov_len = ssl->ssl_cert_len;
iov[2].iov_base = ssl->ssl_key;
iov[2].iov_len = ssl->ssl_key_len;
m_composev(p, IMSG_LKA_SSL_INIT, 0, 0, -1, iov, nitems(iov));
return;
case IMSG_LKA_SSL_VERIFY_CERT:
req_ca_vrfy_smtp = xmemdup(imsg->data, sizeof *req_ca_vrfy_smtp, "lka:ca_vrfy");
if (req_ca_vrfy_smtp == NULL)
fatal(NULL);
req_ca_vrfy_smtp->cert = xmemdup((char *)imsg->data +
sizeof *req_ca_vrfy_smtp, req_ca_vrfy_smtp->cert_len, "lka:ca_vrfy");
req_ca_vrfy_smtp->chain_cert = xcalloc(req_ca_vrfy_smtp->n_chain,
sizeof (unsigned char *), "lka:ca_vrfy");
req_ca_vrfy_smtp->chain_cert_len = xcalloc(req_ca_vrfy_smtp->n_chain,
sizeof (off_t), "lka:ca_vrfy");
return;
case IMSG_LKA_SSL_VERIFY_CHAIN:
if (req_ca_vrfy_smtp == NULL)
fatalx("lka:ca_vrfy: chain without a certificate");
req_ca_vrfy_chain = imsg->data;
req_ca_vrfy_smtp->chain_cert[req_ca_vrfy_smtp->chain_offset] = xmemdup((char *)imsg->data +
sizeof *req_ca_vrfy_chain, req_ca_vrfy_chain->cert_len, "lka:ca_vrfy");
req_ca_vrfy_smtp->chain_cert_len[req_ca_vrfy_smtp->chain_offset] = req_ca_vrfy_chain->cert_len;
req_ca_vrfy_smtp->chain_offset++;
return;
case IMSG_LKA_SSL_VERIFY:
if (req_ca_vrfy_smtp == NULL)
fatalx("lka:ca_vrfy: verify without a certificate");
resp_ca_vrfy.reqid = req_ca_vrfy_smtp->reqid;
if (! lka_X509_verify(req_ca_vrfy_smtp, CA_FILE, NULL))
resp_ca_vrfy.status = CA_FAIL;
else
resp_ca_vrfy.status = CA_OK;
m_compose(p, IMSG_LKA_SSL_VERIFY, 0, 0, -1, &resp_ca_vrfy,
sizeof resp_ca_vrfy);
for (i = 0; i < req_ca_vrfy_smtp->n_chain; ++i)
free(req_ca_vrfy_smtp->chain_cert[i]);
free(req_ca_vrfy_smtp->chain_cert);
free(req_ca_vrfy_smtp->chain_cert_len);
free(req_ca_vrfy_smtp->cert);
free(req_ca_vrfy_smtp);
return;
case IMSG_LKA_AUTHENTICATE:
m_msg(&m, imsg);
m_get_id(&m, &reqid);
m_get_string(&m, &tablename);
m_get_string(&m, &username);
m_get_string(&m, &password);
m_end(&m);
if (!tablename[0]) {
m_create(p_parent, IMSG_LKA_AUTHENTICATE,
0, 0, -1);
m_add_id(p_parent, reqid);
m_add_string(p_parent, username);
m_add_string(p_parent, password);
m_close(p_parent);
return;
}
ret = lka_authenticate(tablename, username, password);
m_create(p, IMSG_LKA_AUTHENTICATE, 0, 0, -1);
m_add_id(p, reqid);
m_add_int(p, ret);
m_close(p);
return;
}
}
if (p->proc == PROC_MDA) {
switch (imsg->hdr.type) {
case IMSG_LKA_USERINFO:
m_msg(&m, imsg);
m_get_string(&m, &tablename);
m_get_string(&m, &username);
m_end(&m);
ret = lka_userinfo(tablename, username, &userinfo);
m_create(p, IMSG_LKA_USERINFO, 0, 0, -1);
m_add_string(p, tablename);
m_add_string(p, username);
m_add_int(p, ret);
if (ret == LKA_OK)
m_add_data(p, &userinfo, sizeof(userinfo));
m_close(p);
return;
}
}
if (p->proc == PROC_MTA) {
switch (imsg->hdr.type) {
case IMSG_LKA_SSL_INIT:
req_ca_cert = imsg->data;
resp_ca_cert.reqid = req_ca_cert->reqid;
ssl = dict_get(env->sc_ssl_dict, req_ca_cert->name);
if (ssl == NULL) {
resp_ca_cert.status = CA_FAIL;
m_compose(p, IMSG_LKA_SSL_INIT, 0, 0, -1, &resp_ca_cert,
sizeof(resp_ca_cert));
return;
}
resp_ca_cert.status = CA_OK;
resp_ca_cert.cert_len = ssl->ssl_cert_len;
resp_ca_cert.key_len = ssl->ssl_key_len;
iov[0].iov_base = &resp_ca_cert;
iov[0].iov_len = sizeof(resp_ca_cert);
iov[1].iov_base = ssl->ssl_cert;
iov[1].iov_len = ssl->ssl_cert_len;
iov[2].iov_base = ssl->ssl_key;
iov[2].iov_len = ssl->ssl_key_len;
m_composev(p, IMSG_LKA_SSL_INIT, 0, 0, -1, iov, nitems(iov));
return;
case IMSG_LKA_SSL_VERIFY_CERT:
req_ca_vrfy_mta = xmemdup(imsg->data, sizeof *req_ca_vrfy_mta, "lka:ca_vrfy");
if (req_ca_vrfy_mta == NULL)
fatal(NULL);
req_ca_vrfy_mta->cert = xmemdup((char *)imsg->data +
sizeof *req_ca_vrfy_mta, req_ca_vrfy_mta->cert_len, "lka:ca_vrfy");
req_ca_vrfy_mta->chain_cert = xcalloc(req_ca_vrfy_mta->n_chain,
sizeof (unsigned char *), "lka:ca_vrfy");
req_ca_vrfy_mta->chain_cert_len = xcalloc(req_ca_vrfy_mta->n_chain,
sizeof (off_t), "lka:ca_vrfy");
return;
case IMSG_LKA_SSL_VERIFY_CHAIN:
if (req_ca_vrfy_mta == NULL)
fatalx("lka:ca_vrfy: verify without a certificate");
req_ca_vrfy_chain = imsg->data;
req_ca_vrfy_mta->chain_cert[req_ca_vrfy_mta->chain_offset] = xmemdup((char *)imsg->data +
sizeof *req_ca_vrfy_chain, req_ca_vrfy_chain->cert_len, "lka:ca_vrfy");
req_ca_vrfy_mta->chain_cert_len[req_ca_vrfy_mta->chain_offset] = req_ca_vrfy_chain->cert_len;
req_ca_vrfy_mta->chain_offset++;
return;
case IMSG_LKA_SSL_VERIFY:
if (req_ca_vrfy_mta == NULL)
fatalx("lka:ca_vrfy: verify without a certificate");
resp_ca_vrfy.reqid = req_ca_vrfy_mta->reqid;
if (! lka_X509_verify(req_ca_vrfy_mta, CA_FILE, NULL))
resp_ca_vrfy.status = CA_FAIL;
else
resp_ca_vrfy.status = CA_OK;
m_compose(p, IMSG_LKA_SSL_VERIFY, 0, 0, -1, &resp_ca_vrfy,
sizeof resp_ca_vrfy);
for (i = 0; i < req_ca_vrfy_mta->n_chain; ++i)
free(req_ca_vrfy_mta->chain_cert[i]);
free(req_ca_vrfy_mta->chain_cert);
free(req_ca_vrfy_mta->chain_cert_len);
free(req_ca_vrfy_mta->cert);
free(req_ca_vrfy_mta);
return;
case IMSG_LKA_SECRET:
m_msg(&m, imsg);
m_get_id(&m, &reqid);
m_get_string(&m, &tablename);
m_get_string(&m, &label);
m_end(&m);
lka_credentials(tablename, label, buf, sizeof(buf));
m_create(p, IMSG_LKA_SECRET, 0, 0, -1);
m_add_id(p, reqid);
m_add_string(p, buf);
m_close(p);
return;
case IMSG_LKA_SOURCE:
m_msg(&m, imsg);
m_get_id(&m, &reqid);
m_get_string(&m, &tablename);
table = table_find(tablename, NULL);
m_create(p, IMSG_LKA_SOURCE, 0, 0, -1);
m_add_id(p, reqid);
if (table == NULL) {
log_warn("warn: source address table %s missing",
tablename);
m_add_int(p, LKA_TEMPFAIL);
}
else {
ret = table_fetch(table, K_SOURCE, &lk);
if (ret == -1)
m_add_int(p, LKA_TEMPFAIL);
else if (ret == 0)
m_add_int(p, LKA_PERMFAIL);
else {
m_add_int(p, LKA_OK);
m_add_sockaddr(p,
(struct sockaddr *)&lk.source.addr);
}
}
m_close(p);
return;
case IMSG_LKA_HELO:
m_msg(&m, imsg);
m_get_id(&m, &reqid);
m_get_string(&m, &tablename);
m_get_sockaddr(&m, (struct sockaddr *)&ss);
m_end(&m);
ret = lka_addrname(tablename, (struct sockaddr*)&ss,
&addrname);
m_create(p, IMSG_LKA_HELO, 0, 0, -1);
m_add_id(p, reqid);
m_add_int(p, ret);
if (ret == LKA_OK)
m_add_string(p, addrname.name);
m_close(p);
return;
}
}
if (p->proc == PROC_PARENT) {
switch (imsg->hdr.type) {
case IMSG_CONF_START:
env->sc_rules_reload = xcalloc(1,
sizeof *env->sc_rules, "lka:sc_rules_reload");
tables_dict = xcalloc(1,
sizeof *tables_dict, "lka:tables_dict");
ssl_dict = calloc(1, sizeof *ssl_dict);
if (ssl_dict == NULL)
fatal(NULL);
dict_init(ssl_dict);
dict_init(tables_dict);
TAILQ_INIT(env->sc_rules_reload);
return;
case IMSG_CONF_SSL:
ssl = calloc(1, sizeof *ssl);
if (ssl == NULL)
fatal(NULL);
*ssl = *(struct ssl *)imsg->data;
ssl->ssl_cert = xstrdup((char *)imsg->data +
sizeof *ssl, "smtp:ssl_cert");
ssl->ssl_key = xstrdup((char *)imsg->data +
sizeof *ssl + ssl->ssl_cert_len, "smtp:ssl_key");
if (ssl->ssl_dhparams_len) {
ssl->ssl_dhparams = xstrdup((char *)imsg->data
+ sizeof *ssl + ssl->ssl_cert_len +
ssl->ssl_key_len, "smtp:ssl_dhparams");
}
if (ssl->ssl_ca_len) {
ssl->ssl_ca = xstrdup((char *)imsg->data
+ sizeof *ssl + ssl->ssl_cert_len +
ssl->ssl_key_len + ssl->ssl_dhparams_len,
"smtp:ssl_ca");
}
dict_set(ssl_dict, ssl->ssl_name, ssl);
return;
case IMSG_CONF_RULE:
rule = xmemdup(imsg->data, sizeof *rule, "lka:rule");
TAILQ_INSERT_TAIL(env->sc_rules_reload, rule, r_entry);
return;
case IMSG_CONF_TABLE:
table_last = table = xmemdup(imsg->data, sizeof *table,
"lka:table");
dict_init(&table->t_dict);
dict_set(tables_dict, table->t_name, table);
return;
case IMSG_CONF_RULE_SOURCE:
rule = TAILQ_LAST(env->sc_rules_reload, rulelist);
tmp = env->sc_tables_dict;
env->sc_tables_dict = tables_dict;
rule->r_sources = table_find(imsg->data, NULL);
if (rule->r_sources == NULL)
fatalx("lka: tables inconsistency");
env->sc_tables_dict = tmp;
return;
case IMSG_CONF_RULE_SENDER:
rule = TAILQ_LAST(env->sc_rules_reload, rulelist);
tmp = env->sc_tables_dict;
env->sc_tables_dict = tables_dict;
rule->r_senders = table_find(imsg->data, NULL);
if (rule->r_senders == NULL)
fatalx("lka: tables inconsistency");
env->sc_tables_dict = tmp;
return;
case IMSG_CONF_RULE_DESTINATION:
rule = TAILQ_LAST(env->sc_rules_reload, rulelist);
tmp = env->sc_tables_dict;
env->sc_tables_dict = tables_dict;
rule->r_destination = table_find(imsg->data, NULL);
if (rule->r_destination == NULL)
fatalx("lka: tables inconsistency");
env->sc_tables_dict = tmp;
return;
case IMSG_CONF_RULE_MAPPING:
rule = TAILQ_LAST(env->sc_rules_reload, rulelist);
tmp = env->sc_tables_dict;
env->sc_tables_dict = tables_dict;
rule->r_mapping = table_find(imsg->data, NULL);
if (rule->r_mapping == NULL)
fatalx("lka: tables inconsistency");
env->sc_tables_dict = tmp;
return;
case IMSG_CONF_RULE_USERS:
rule = TAILQ_LAST(env->sc_rules_reload, rulelist);
tmp = env->sc_tables_dict;
env->sc_tables_dict = tables_dict;
rule->r_userbase = table_find(imsg->data, NULL);
if (rule->r_userbase == NULL)
fatalx("lka: tables inconsistency");
env->sc_tables_dict = tmp;
return;
case IMSG_CONF_TABLE_CONTENT:
table = table_last;
if (table == NULL)
fatalx("lka: tables inconsistency");
key = imsg->data;
if (table->t_type == T_HASH)
val = key + strlen(key) + 1;
else
val = NULL;
dict_set(&table->t_dict, key,
val ? xstrdup(val, "lka:dict_set") : NULL);
return;
case IMSG_CONF_END:
if (env->sc_rules)
purge_config(PURGE_RULES);
if (env->sc_tables_dict) {
table_close_all();
purge_config(PURGE_TABLES);
}
env->sc_rules = env->sc_rules_reload;
env->sc_ssl_dict = ssl_dict;
env->sc_tables_dict = tables_dict;
if (verbose & TRACE_TABLES)
table_dump_all();
table_open_all();
ssl_dict = NULL;
table_last = NULL;
tables_dict = NULL;
/* Start fulfilling requests */
mproc_enable(p_mda);
mproc_enable(p_mta);
mproc_enable(p_smtp);
return;
case IMSG_CTL_VERBOSE:
m_msg(&m, imsg);
m_get_int(&m, &v);
m_end(&m);
log_verbose(v);
return;
case IMSG_CTL_PROFILE:
m_msg(&m, imsg);
m_get_int(&m, &v);
m_end(&m);
profiling = v;
return;
case IMSG_PARENT_FORWARD_OPEN:
lka_session_forward_reply(imsg->data, imsg->fd);
return;
case IMSG_LKA_AUTHENTICATE:
m_forward(p_smtp, imsg);
return;
}
}
if (p->proc == PROC_CONTROL) {
switch (imsg->hdr.type) {
case IMSG_LKA_UPDATE_TABLE:
table = table_find(imsg->data, NULL);
if (table == NULL) {
log_warnx("warn: Lookup table not found: "
"\"%s\"", (char *)imsg->data);
return;
}
table_update(table);
return;
}
}
errx(1, "lka_imsg: unexpected %s imsg", imsg_to_str(imsg->hdr.type));
}
void
dns_imsg(struct mproc *p, struct imsg *imsg)
{
struct sockaddr_storage ss;
struct dns_session *s;
struct sockaddr *sa;
struct asr_query *as;
struct msg m;
const char *domain, *mx, *host;
socklen_t sl;
s = xcalloc(1, sizeof *s, "dns_imsg");
s->type = imsg->hdr.type;
s->p = p;
m_msg(&m, imsg);
m_get_id(&m, &s->reqid);
switch (s->type) {
case IMSG_MTA_DNS_HOST:
m_get_string(&m, &host);
m_end(&m);
dns_lookup_host(s, host, -1);
return;
case IMSG_MTA_DNS_PTR:
case IMSG_SMTP_DNS_PTR:
sa = (struct sockaddr *)&ss;
m_get_sockaddr(&m, sa);
m_end(&m);
as = getnameinfo_async(sa, SA_LEN(sa), s->name, sizeof(s->name),
NULL, 0, 0, NULL);
event_asr_run(as, dns_dispatch_ptr, s);
return;
case IMSG_MTA_DNS_MX:
m_get_string(&m, &domain);
m_end(&m);
(void)strlcpy(s->name, domain, sizeof(s->name));
sa = (struct sockaddr *)&ss;
sl = sizeof(ss);
if (domainname_is_addr(domain, sa, &sl)) {
m_create(s->p, IMSG_MTA_DNS_HOST, 0, 0, -1);
m_add_id(s->p, s->reqid);
m_add_sockaddr(s->p, sa);
m_add_int(s->p, -1);
m_close(s->p);
m_create(s->p, IMSG_MTA_DNS_HOST_END, 0, 0, -1);
m_add_id(s->p, s->reqid);
m_add_int(s->p, DNS_OK);
m_close(s->p);
free(s);
return;
}
as = res_query_async(s->name, C_IN, T_MX, NULL);
if (as == NULL) {
log_warn("warn: req_query_async: %s", s->name);
m_create(s->p, IMSG_MTA_DNS_HOST_END, 0, 0, -1);
m_add_id(s->p, s->reqid);
m_add_int(s->p, DNS_EINVAL);
m_close(s->p);
free(s);
return;
}
event_asr_run(as, dns_dispatch_mx, s);
return;
case IMSG_MTA_DNS_MX_PREFERENCE:
m_get_string(&m, &domain);
m_get_string(&m, &mx);
m_end(&m);
(void)strlcpy(s->name, mx, sizeof(s->name));
as = res_query_async(domain, C_IN, T_MX, NULL);
if (as == NULL) {
m_create(s->p, IMSG_MTA_DNS_MX_PREFERENCE, 0, 0, -1);
m_add_id(s->p, s->reqid);
m_add_int(s->p, DNS_ENOTFOUND);
m_close(s->p);
free(s);
return;
}
event_asr_run(as, dns_dispatch_mx_preference, s);
return;
default:
log_warnx("warn: bad dns request %d", s->type);
fatal(NULL);
}
}
void
mta_session(struct mta_relay *relay, struct mta_route *route)
{
struct mta_session *s;
struct timeval tv;
mta_session_init();
s = xcalloc(1, sizeof *s, "mta_session");
s->id = generate_uid();
s->relay = relay;
s->route = route;
s->io.sock = -1;
if (relay->flags & RELAY_SSL && relay->flags & RELAY_AUTH)
s->flags |= MTA_USE_AUTH;
if (relay->pki_name)
s->flags |= MTA_USE_CERT;
if (relay->flags & RELAY_LMTP)
s->flags |= MTA_LMTP;
switch (relay->flags & (RELAY_SSL|RELAY_TLS_OPTIONAL)) {
case RELAY_SSL:
s->flags |= MTA_FORCE_ANYSSL;
s->flags |= MTA_WANT_SECURE;
break;
case RELAY_SMTPS:
s->flags |= MTA_FORCE_SMTPS;
s->flags |= MTA_WANT_SECURE;
break;
case RELAY_STARTTLS:
s->flags |= MTA_FORCE_TLS;
s->flags |= MTA_WANT_SECURE;
break;
case RELAY_TLS_OPTIONAL:
/* do not force anything, try tls then smtp */
break;
default:
s->flags |= MTA_FORCE_PLAIN;
}
if (relay->flags & RELAY_BACKUP)
s->flags &= ~MTA_FORCE_PLAIN;
log_debug("debug: mta: %p: spawned for relay %s", s,
mta_relay_to_text(relay));
stat_increment("mta.session", 1);
if (route->dst->ptrname || route->dst->lastptrquery) {
/* We want to delay the connection since to always notify
* the relay asynchronously.
*/
tv.tv_sec = 0;
tv.tv_usec = 0;
evtimer_set(&s->io.ev, mta_start, s);
evtimer_add(&s->io.ev, &tv);
} else if (waitq_wait(&route->dst->ptrname, mta_on_ptr, s)) {
m_create(p_lka, IMSG_MTA_DNS_PTR, 0, 0, -1);
m_add_id(p_lka, s->id);
m_add_sockaddr(p_lka, s->route->dst->sa);
m_close(p_lka);
tree_xset(&wait_ptr, s->id, s);
s->flags |= MTA_WAIT;
}
}
