/*
mark all pending requests as dead - called when a socket error happens
*/
static void wrepl_socket_dead(struct wrepl_socket *wrepl_socket, NTSTATUS status)
{
wrepl_socket->dead = True;
if (wrepl_socket->packet) {
packet_recv_disable(wrepl_socket->packet);
packet_set_fde(wrepl_socket->packet, NULL);
packet_set_socket(wrepl_socket->packet, NULL);
}
if (wrepl_socket->event.fde) {
talloc_free(wrepl_socket->event.fde);
wrepl_socket->event.fde = NULL;
}
if (wrepl_socket->sock) {
talloc_free(wrepl_socket->sock);
wrepl_socket->sock = NULL;
}
if (NT_STATUS_EQUAL(NT_STATUS_UNSUCCESSFUL, status)) {
status = NT_STATUS_UNEXPECTED_NETWORK_ERROR;
}
while (wrepl_socket->recv_queue) {
struct wrepl_request *req = wrepl_socket->recv_queue;
DLIST_REMOVE(wrepl_socket->recv_queue, req);
wrepl_request_finished(req, status);
}
talloc_set_destructor(wrepl_socket, NULL);
if (wrepl_socket->free_skipped) {
talloc_free(wrepl_socket);
}
}
/*
mark the socket dead
*/
static void sock_dead(struct dcecli_connection *p, NTSTATUS status)
{
struct sock_private *sock = (struct sock_private *)p->transport.private_data;
if (!sock) return;
if (sock->packet) {
packet_recv_disable(sock->packet);
packet_set_fde(sock->packet, NULL);
packet_set_socket(sock->packet, NULL);
}
if (sock->fde) {
talloc_free(sock->fde);
sock->fde = NULL;
}
if (sock->sock) {
talloc_free(sock->sock);
sock->sock = NULL;
}
if (NT_STATUS_EQUAL(NT_STATUS_UNSUCCESSFUL, status)) {
status = NT_STATUS_UNEXPECTED_NETWORK_ERROR;
}
if (NT_STATUS_EQUAL(NT_STATUS_OK, status)) {
status = NT_STATUS_END_OF_FILE;
}
if (p->transport.recv_data) {
p->transport.recv_data(p, NULL, status);
}
}
static void wbsrv_accept(struct stream_connection *conn)
{
struct wbsrv_listen_socket *listen_socket = talloc_get_type(conn->private_data,
struct wbsrv_listen_socket);
struct wbsrv_connection *wbconn;
wbconn = talloc_zero(conn, struct wbsrv_connection);
if (!wbconn) {
stream_terminate_connection(conn, "wbsrv_accept: out of memory");
return;
}
wbconn->conn = conn;
wbconn->listen_socket = listen_socket;
wbconn->lp_ctx = listen_socket->service->task->lp_ctx;
conn->private_data = wbconn;
wbconn->packet = packet_init(wbconn);
if (wbconn->packet == NULL) {
wbsrv_terminate_connection(wbconn, "wbsrv_accept: out of memory");
return;
}
packet_set_private(wbconn->packet, wbconn);
packet_set_socket(wbconn->packet, conn->socket);
packet_set_callback(wbconn->packet, wbsrv_samba3_process);
packet_set_full_request(wbconn->packet, wbsrv_samba3_packet_full_request);
packet_set_error_handler(wbconn->packet, wbsrv_recv_error);
packet_set_event_context(wbconn->packet, conn->event.ctx);
packet_set_fde(wbconn->packet, conn->event.fde);
packet_set_serialise(wbconn->packet);
}
/*
create a transport structure based on an established socket
*/
struct smbcli_transport *smbcli_transport_init(struct smbcli_socket *sock,
TALLOC_CTX *parent_ctx,
bool primary,
struct smbcli_options *options)
{
struct smbcli_transport *transport;
transport = talloc_zero(parent_ctx, struct smbcli_transport);
if (!transport) return NULL;
if (primary) {
transport->socket = talloc_steal(transport, sock);
} else {
transport->socket = talloc_reference(transport, sock);
}
transport->negotiate.protocol = PROTOCOL_NT1;
transport->options = *options;
transport->negotiate.max_xmit = transport->options.max_xmit;
/* setup the stream -> packet parser */
transport->packet = packet_init(transport);
if (transport->packet == NULL) {
talloc_free(transport);
return NULL;
}
packet_set_private(transport->packet, transport);
packet_set_socket(transport->packet, transport->socket->sock);
packet_set_callback(transport->packet, smbcli_transport_finish_recv);
packet_set_full_request(transport->packet, packet_full_request_nbt);
packet_set_error_handler(transport->packet, smbcli_transport_error);
packet_set_event_context(transport->packet, transport->socket->event.ctx);
packet_set_nofree(transport->packet);
packet_set_initial_read(transport->packet, 4);
smbcli_init_signing(transport);
ZERO_STRUCT(transport->called);
/* take over event handling from the socket layer - it only
handles events up until we are connected */
talloc_free(transport->socket->event.fde);
transport->socket->event.fde = event_add_fd(transport->socket->event.ctx,
transport->socket->sock,
socket_get_fd(transport->socket->sock),
EVENT_FD_READ,
smbcli_transport_event_handler,
transport);
packet_set_fde(transport->packet, transport->socket->event.fde);
packet_set_serialise(transport->packet);
talloc_set_destructor(transport, transport_destructor);
return transport;
}
/*
initialise a wrepl_socket from an already existing connection
*/
struct wrepl_socket *wrepl_socket_merge(TALLOC_CTX *mem_ctx,
struct tevent_context *event_ctx,
struct socket_context *sock,
struct packet_context *pack)
{
struct wrepl_socket *wrepl_socket;
wrepl_socket = talloc_zero(mem_ctx, struct wrepl_socket);
if (wrepl_socket == NULL) goto failed;
wrepl_socket->event.ctx = talloc_reference(wrepl_socket, event_ctx);
if (wrepl_socket->event.ctx == NULL) goto failed;
wrepl_socket->sock = sock;
talloc_steal(wrepl_socket, wrepl_socket->sock);
wrepl_socket->request_timeout = WREPL_SOCKET_REQUEST_TIMEOUT;
wrepl_socket->event.fde = event_add_fd(wrepl_socket->event.ctx, wrepl_socket,
socket_get_fd(wrepl_socket->sock),
EVENT_FD_READ,
wrepl_handler, wrepl_socket);
if (wrepl_socket->event.fde == NULL) {
goto failed;
}
wrepl_socket->packet = pack;
talloc_steal(wrepl_socket, wrepl_socket->packet);
packet_set_private(wrepl_socket->packet, wrepl_socket);
packet_set_socket(wrepl_socket->packet, wrepl_socket->sock);
packet_set_callback(wrepl_socket->packet, wrepl_finish_recv);
packet_set_full_request(wrepl_socket->packet, packet_full_request_u32);
packet_set_error_handler(wrepl_socket->packet, wrepl_error);
packet_set_event_context(wrepl_socket->packet, wrepl_socket->event.ctx);
packet_set_fde(wrepl_socket->packet, wrepl_socket->event.fde);
packet_set_serialise(wrepl_socket->packet);
talloc_set_destructor(wrepl_socket, wrepl_socket_destructor);
return wrepl_socket;
failed:
talloc_free(wrepl_socket);
return NULL;
}
/*
initialise a server_context from a open socket and register a event handler
for reading from that socket
*/
static void ldapsrv_accept(struct stream_connection *c,
struct auth_session_info *session_info)
{
struct ldapsrv_service *ldapsrv_service =
talloc_get_type(c->private_data, struct ldapsrv_service);
struct ldapsrv_connection *conn;
struct cli_credentials *server_credentials;
struct socket_address *socket_address;
NTSTATUS status;
int port;
conn = talloc_zero(c, struct ldapsrv_connection);
if (!conn) {
stream_terminate_connection(c, "ldapsrv_accept: out of memory");
return;
}
conn->packet = NULL;
conn->connection = c;
conn->service = ldapsrv_service;
conn->sockets.raw = c->socket;
conn->lp_ctx = ldapsrv_service->task->lp_ctx;
c->private_data = conn;
socket_address = socket_get_my_addr(c->socket, conn);
if (!socket_address) {
ldapsrv_terminate_connection(conn, "ldapsrv_accept: failed to obtain local socket address!");
return;
}
port = socket_address->port;
talloc_free(socket_address);
if (port == 636) {
struct socket_context *tls_socket = tls_init_server(ldapsrv_service->tls_params, c->socket,
c->event.fde, NULL);
if (!tls_socket) {
ldapsrv_terminate_connection(conn, "ldapsrv_accept: tls_init_server() failed");
return;
}
talloc_steal(c, tls_socket);
c->socket = tls_socket;
conn->sockets.tls = tls_socket;
} else if (port == 3268) /* Global catalog */ {
conn->global_catalog = true;
}
conn->packet = packet_init(conn);
if (conn->packet == NULL) {
ldapsrv_terminate_connection(conn, "out of memory");
return;
}
packet_set_private(conn->packet, conn);
packet_set_socket(conn->packet, c->socket);
packet_set_callback(conn->packet, ldapsrv_decode);
packet_set_full_request(conn->packet, ldap_full_packet);
packet_set_error_handler(conn->packet, ldapsrv_error_handler);
packet_set_event_context(conn->packet, c->event.ctx);
packet_set_fde(conn->packet, c->event.fde);
packet_set_serialise(conn->packet);
if (conn->sockets.tls) {
packet_set_unreliable_select(conn->packet);
}
/* Ensure we don't get packets until the database is ready below */
packet_recv_disable(conn->packet);
server_credentials = cli_credentials_init(conn);
if (!server_credentials) {
stream_terminate_connection(c, "Failed to init server credentials\n");
return;
}
cli_credentials_set_conf(server_credentials, conn->lp_ctx);
status = cli_credentials_set_machine_account(server_credentials, conn->lp_ctx);
if (!NT_STATUS_IS_OK(status)) {
stream_terminate_connection(c, talloc_asprintf(conn, "Failed to obtain server credentials, perhaps a standalone server?: %s\n", nt_errstr(status)));
return;
}
conn->server_credentials = server_credentials;
conn->session_info = talloc_move(conn, &session_info);
if (!NT_STATUS_IS_OK(ldapsrv_backend_Init(conn))) {
ldapsrv_terminate_connection(conn, "backend Init failed");
return;
}
/* load limits from the conf partition */
ldapsrv_load_limits(conn); /* should we fail on error ? */
/* register the server */
irpc_add_name(c->msg_ctx, "ldap_server");
/* set connections limits */
conn->limits.ite = event_add_timed(c->event.ctx, conn,
timeval_current_ofs(conn->limits.initial_timeout, 0),
ldapsrv_conn_init_timeout, conn);
packet_recv_enable(conn->packet);
}
krb5_error_code smb_krb5_send_and_recv_func(krb5_context context,
void *data,
krb5_krbhst_info *hi,
time_t timeout,
const krb5_data *send_buf,
krb5_data *recv_buf)
{
krb5_error_code ret;
NTSTATUS status;
struct socket_address *remote_addr;
const char *name;
struct addrinfo *ai, *a;
struct smb_krb5_socket *smb_krb5;
struct tevent_context *ev = talloc_get_type(data, struct tevent_context);
DATA_BLOB send_blob = data_blob_const(send_buf->data, send_buf->length);
ret = krb5_krbhst_get_addrinfo(context, hi, &ai);
if (ret) {
return ret;
}
for (a = ai; a; a = ai->ai_next) {
smb_krb5 = talloc(NULL, struct smb_krb5_socket);
if (!smb_krb5) {
return ENOMEM;
}
smb_krb5->hi = hi;
switch (a->ai_family) {
case PF_INET:
name = "ipv4";
break;
#ifdef HAVE_IPV6
case PF_INET6:
name = "ipv6";
break;
#endif
default:
talloc_free(smb_krb5);
return EINVAL;
}
status = NT_STATUS_INVALID_PARAMETER;
switch (hi->proto) {
case KRB5_KRBHST_UDP:
status = socket_create(name, SOCKET_TYPE_DGRAM, &smb_krb5->sock, 0);
break;
case KRB5_KRBHST_TCP:
status = socket_create(name, SOCKET_TYPE_STREAM, &smb_krb5->sock, 0);
break;
case KRB5_KRBHST_HTTP:
talloc_free(smb_krb5);
return EINVAL;
}
if (!NT_STATUS_IS_OK(status)) {
talloc_free(smb_krb5);
continue;
}
talloc_steal(smb_krb5, smb_krb5->sock);
remote_addr = socket_address_from_sockaddr(smb_krb5, a->ai_addr, a->ai_addrlen);
if (!remote_addr) {
talloc_free(smb_krb5);
continue;
}
status = socket_connect_ev(smb_krb5->sock, NULL, remote_addr, 0, ev);
if (!NT_STATUS_IS_OK(status)) {
talloc_free(smb_krb5);
continue;
}
talloc_free(remote_addr);
/* Setup the FDE, start listening for read events
* from the start (otherwise we may miss a socket
* drop) and mark as AUTOCLOSE along with the fde */
/* Ths is equivilant to EVENT_FD_READABLE(smb_krb5->fde) */
smb_krb5->fde = tevent_add_fd(ev, smb_krb5->sock,
socket_get_fd(smb_krb5->sock),
TEVENT_FD_READ,
smb_krb5_socket_handler, smb_krb5);
/* its now the job of the event layer to close the socket */
tevent_fd_set_close_fn(smb_krb5->fde, socket_tevent_fd_close_fn);
socket_set_flags(smb_krb5->sock, SOCKET_FLAG_NOCLOSE);
tevent_add_timer(ev, smb_krb5,
timeval_current_ofs(timeout, 0),
smb_krb5_request_timeout, smb_krb5);
smb_krb5->status = NT_STATUS_OK;
smb_krb5->reply = data_blob(NULL, 0);
switch (hi->proto) {
case KRB5_KRBHST_UDP:
TEVENT_FD_WRITEABLE(smb_krb5->fde);
smb_krb5->request = send_blob;
break;
case KRB5_KRBHST_TCP:
smb_krb5->packet = packet_init(smb_krb5);
if (smb_krb5->packet == NULL) {
talloc_free(smb_krb5);
return ENOMEM;
}
packet_set_private(smb_krb5->packet, smb_krb5);
packet_set_socket(smb_krb5->packet, smb_krb5->sock);
packet_set_callback(smb_krb5->packet, smb_krb5_full_packet);
packet_set_full_request(smb_krb5->packet, packet_full_request_u32);
packet_set_error_handler(smb_krb5->packet, smb_krb5_error_handler);
packet_set_event_context(smb_krb5->packet, ev);
packet_set_fde(smb_krb5->packet, smb_krb5->fde);
smb_krb5->request = data_blob_talloc(smb_krb5, NULL, send_blob.length + 4);
RSIVAL(smb_krb5->request.data, 0, send_blob.length);
memcpy(smb_krb5->request.data+4, send_blob.data, send_blob.length);
packet_send(smb_krb5->packet, smb_krb5->request);
break;
case KRB5_KRBHST_HTTP:
talloc_free(smb_krb5);
return EINVAL;
}
while ((NT_STATUS_IS_OK(smb_krb5->status)) && !smb_krb5->reply.length) {
if (tevent_loop_once(ev) != 0) {
talloc_free(smb_krb5);
return EINVAL;
}
}
if (NT_STATUS_EQUAL(smb_krb5->status, NT_STATUS_IO_TIMEOUT)) {
talloc_free(smb_krb5);
continue;
}
if (!NT_STATUS_IS_OK(smb_krb5->status)) {
DEBUG(2,("Error reading smb_krb5 reply packet: %s\n", nt_errstr(smb_krb5->status)));
talloc_free(smb_krb5);
continue;
}
ret = krb5_data_copy(recv_buf, smb_krb5->reply.data, smb_krb5->reply.length);
if (ret) {
talloc_free(smb_krb5);
return ret;
}
talloc_free(smb_krb5);
break;
}
if (a) {
return 0;
}
return KRB5_KDC_UNREACH;
}
krb5_error_code smb_krb5_send_and_recv_func(krb5_context context,
void *data,
krb5_krbhst_info *hi,
time_t timeout,
const krb5_data *send_buf,
krb5_data *recv_buf)
{
krb5_error_code ret;
NTSTATUS status;
const char *name;
struct addrinfo *ai, *a;
struct smb_krb5_socket *smb_krb5;
DATA_BLOB send_blob;
struct tevent_context *ev;
TALLOC_CTX *tmp_ctx = talloc_new(NULL);
if (!tmp_ctx) {
return ENOMEM;
}
if (!data) {
/* If no event context was available, then create one for this loop */
ev = samba_tevent_context_init(tmp_ctx);
if (!ev) {
talloc_free(tmp_ctx);
return ENOMEM;
}
} else {
ev = talloc_get_type_abort(data, struct tevent_context);
}
send_blob = data_blob_const(send_buf->data, send_buf->length);
ret = krb5_krbhst_get_addrinfo(context, hi, &ai);
if (ret) {
talloc_free(tmp_ctx);
return ret;
}
for (a = ai; a; a = a->ai_next) {
struct socket_address *remote_addr;
smb_krb5 = talloc(tmp_ctx, struct smb_krb5_socket);
if (!smb_krb5) {
talloc_free(tmp_ctx);
return ENOMEM;
}
smb_krb5->hi = hi;
switch (a->ai_family) {
case PF_INET:
name = "ipv4";
break;
#ifdef HAVE_IPV6
case PF_INET6:
name = "ipv6";
break;
#endif
default:
talloc_free(tmp_ctx);
return EINVAL;
}
status = NT_STATUS_INVALID_PARAMETER;
switch (hi->proto) {
case KRB5_KRBHST_UDP:
status = socket_create(name, SOCKET_TYPE_DGRAM, &smb_krb5->sock, 0);
break;
case KRB5_KRBHST_TCP:
status = socket_create(name, SOCKET_TYPE_STREAM, &smb_krb5->sock, 0);
break;
case KRB5_KRBHST_HTTP:
talloc_free(tmp_ctx);
return EINVAL;
}
if (!NT_STATUS_IS_OK(status)) {
talloc_free(smb_krb5);
continue;
}
talloc_steal(smb_krb5, smb_krb5->sock);
remote_addr = socket_address_from_sockaddr(smb_krb5, a->ai_addr, a->ai_addrlen);
if (!remote_addr) {
talloc_free(smb_krb5);
continue;
}
status = socket_connect_ev(smb_krb5->sock, NULL, remote_addr, 0, ev);
if (!NT_STATUS_IS_OK(status)) {
talloc_free(smb_krb5);
continue;
}
/* Setup the FDE, start listening for read events
* from the start (otherwise we may miss a socket
* drop) and mark as AUTOCLOSE along with the fde */
/* Ths is equivilant to EVENT_FD_READABLE(smb_krb5->fde) */
smb_krb5->fde = tevent_add_fd(ev, smb_krb5->sock,
socket_get_fd(smb_krb5->sock),
TEVENT_FD_READ,
smb_krb5_socket_handler, smb_krb5);
/* its now the job of the event layer to close the socket */
tevent_fd_set_close_fn(smb_krb5->fde, socket_tevent_fd_close_fn);
socket_set_flags(smb_krb5->sock, SOCKET_FLAG_NOCLOSE);
tevent_add_timer(ev, smb_krb5,
timeval_current_ofs(timeout, 0),
smb_krb5_request_timeout, smb_krb5);
smb_krb5->status = NT_STATUS_OK;
smb_krb5->reply = data_blob(NULL, 0);
switch (hi->proto) {
case KRB5_KRBHST_UDP:
TEVENT_FD_WRITEABLE(smb_krb5->fde);
smb_krb5->request = send_blob;
break;
case KRB5_KRBHST_TCP:
smb_krb5->packet = packet_init(smb_krb5);
if (smb_krb5->packet == NULL) {
talloc_free(smb_krb5);
return ENOMEM;
}
packet_set_private(smb_krb5->packet, smb_krb5);
packet_set_socket(smb_krb5->packet, smb_krb5->sock);
packet_set_callback(smb_krb5->packet, smb_krb5_full_packet);
packet_set_full_request(smb_krb5->packet, packet_full_request_u32);
packet_set_error_handler(smb_krb5->packet, smb_krb5_error_handler);
packet_set_event_context(smb_krb5->packet, ev);
packet_set_fde(smb_krb5->packet, smb_krb5->fde);
smb_krb5->request = data_blob_talloc(smb_krb5, NULL, send_blob.length + 4);
RSIVAL(smb_krb5->request.data, 0, send_blob.length);
memcpy(smb_krb5->request.data+4, send_blob.data, send_blob.length);
packet_send(smb_krb5->packet, smb_krb5->request);
break;
case KRB5_KRBHST_HTTP:
talloc_free(tmp_ctx);
return EINVAL;
}
while ((NT_STATUS_IS_OK(smb_krb5->status)) && !smb_krb5->reply.length) {
if (tevent_loop_once(ev) != 0) {
talloc_free(tmp_ctx);
return EINVAL;
}
/* After each and every event loop, reset the
* send_to_kdc pointers to what they were when
* we entered this loop. That way, if a
* nested event has invalidated them, we put
* it back before we return to the heimdal
* code */
ret = krb5_set_send_to_kdc_func(context,
smb_krb5_send_and_recv_func,
data);
if (ret != 0) {
talloc_free(tmp_ctx);
return ret;
}
}
if (NT_STATUS_EQUAL(smb_krb5->status, NT_STATUS_IO_TIMEOUT)) {
talloc_free(smb_krb5);
continue;
}
if (!NT_STATUS_IS_OK(smb_krb5->status)) {
struct tsocket_address *addr = socket_address_to_tsocket_address(smb_krb5, remote_addr);
const char *addr_string = NULL;
if (addr) {
addr_string = tsocket_address_inet_addr_string(addr, smb_krb5);
} else {
addr_string = NULL;
}
DEBUG(2,("Error reading smb_krb5 reply packet: %s from %s\n", nt_errstr(smb_krb5->status),
addr_string));
talloc_free(smb_krb5);
continue;
}
ret = krb5_data_copy(recv_buf, smb_krb5->reply.data, smb_krb5->reply.length);
if (ret) {
talloc_free(tmp_ctx);
return ret;
}
talloc_free(smb_krb5);
break;
}
talloc_free(tmp_ctx);
if (a) {
return 0;
}
return KRB5_KDC_UNREACH;
}
/*
called when we get a new connection
*/
static void kdc_tcp_accept(struct stream_connection *conn)
{
struct kdc_socket *kdc_socket = talloc_get_type(conn->private_data, struct kdc_socket);
struct kdc_tcp_connection *kdcconn;
struct socket_address *src_addr;
struct socket_address *my_addr;
int ret;
kdcconn = talloc_zero(conn, struct kdc_tcp_connection);
if (!kdcconn) {
stream_terminate_connection(conn, "kdc_tcp_accept: out of memory");
return;
}
kdcconn->conn = conn;
kdcconn->kdc_socket = kdc_socket;
conn->private_data = kdcconn;
src_addr = socket_get_peer_addr(kdcconn->conn->socket, kdcconn);
if (!src_addr) {
kdc_tcp_terminate_connection(kdcconn, "kdc_tcp_accept: out of memory");
return;
}
my_addr = socket_get_my_addr(kdcconn->conn->socket, kdcconn);
if (!my_addr) {
kdc_tcp_terminate_connection(kdcconn, "kdc_tcp_accept: out of memory");
return;
}
ret = tsocket_address_bsd_from_sockaddr(kdcconn,
src_addr->sockaddr,
src_addr->sockaddrlen,
&kdcconn->remote_address);
if (ret < 0) {
kdc_tcp_terminate_connection(kdcconn, "kdc_tcp_accept: out of memory");
return;
}
ret = tsocket_address_bsd_from_sockaddr(kdcconn,
my_addr->sockaddr,
my_addr->sockaddrlen,
&kdcconn->local_address);
if (ret < 0) {
kdc_tcp_terminate_connection(kdcconn, "kdc_tcp_accept: out of memory");
return;
}
TALLOC_FREE(src_addr);
TALLOC_FREE(my_addr);
kdcconn->packet = packet_init(kdcconn);
if (kdcconn->packet == NULL) {
kdc_tcp_terminate_connection(kdcconn, "kdc_tcp_accept: out of memory");
return;
}
packet_set_private(kdcconn->packet, kdcconn);
packet_set_socket(kdcconn->packet, conn->socket);
packet_set_callback(kdcconn->packet, kdc_tcp_recv);
packet_set_full_request(kdcconn->packet, packet_full_request_u32);
packet_set_error_handler(kdcconn->packet, kdc_tcp_recv_error);
packet_set_event_context(kdcconn->packet, conn->event.ctx);
packet_set_fde(kdcconn->packet, conn->event.fde);
packet_set_serialise(kdcconn->packet);
}
