2 Unix SMB/CIFS implementation.
4 implements a non-blocking connect operation that is aware of the samba4
7 Copyright (C) Andrew Tridgell 2005
8 Copyright (C) Volker Lendecke 2005
10 This program is free software; you can redistribute it and/or modify
11 it under the terms of the GNU General Public License as published by
12 the Free Software Foundation; either version 3 of the License, or
13 (at your option) any later version.
15 This program is distributed in the hope that it will be useful,
16 but WITHOUT ANY WARRANTY; without even the implied warranty of
17 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 GNU General Public License for more details.
20 You should have received a copy of the GNU General Public License
21 along with this program. If not, see <http://www.gnu.org/licenses/>.
25 #include "lib/socket/socket.h"
26 #include "lib/events/events.h"
27 #include "libcli/composite/composite.h"
28 #include "libcli/resolve/resolve.h"
29 #include "param/param.h"
32 struct connect_state {
33 struct socket_context *sock;
34 const struct socket_address *my_address;
35 const struct socket_address *server_address;
39 static void socket_connect_handler(struct event_context *ev,
41 uint16_t flags, void *private);
42 static void continue_resolve_name(struct composite_context *ctx);
43 static void continue_socket_connect(struct composite_context *creq);
46 call the real socket_connect() call, and setup event handler
48 static void socket_send_connect(struct composite_context *result)
50 struct composite_context *creq;
52 struct connect_state *state = talloc_get_type(result->private_data,
53 struct connect_state);
55 creq = talloc_zero(state, struct composite_context);
56 if (composite_nomem(creq, result)) return;
57 creq->state = COMPOSITE_STATE_IN_PROGRESS;
58 creq->event_ctx = result->event_ctx;
59 creq->async.fn = continue_socket_connect;
60 creq->async.private_data = result;
62 result->status = socket_connect(state->sock,
64 state->server_address,
66 if (NT_STATUS_IS_ERR(result->status) &&
67 !NT_STATUS_EQUAL(result->status,
68 NT_STATUS_MORE_PROCESSING_REQUIRED)) {
69 composite_error(result, result->status);
73 fde = event_add_fd(result->event_ctx, result,
74 socket_get_fd(state->sock),
75 EVENT_FD_READ|EVENT_FD_WRITE,
76 socket_connect_handler, result);
77 composite_nomem(fde, result);
82 send a socket connect, potentially doing some name resolution first
84 struct composite_context *socket_connect_send(struct socket_context *sock,
85 struct socket_address *my_address,
86 struct socket_address *server_address,
88 struct resolve_context *resolve_ctx,
89 struct event_context *event_ctx)
91 struct composite_context *result;
92 struct connect_state *state;
94 result = talloc_zero(sock, struct composite_context);
95 if (result == NULL) return NULL;
96 result->state = COMPOSITE_STATE_IN_PROGRESS;
97 result->event_ctx = event_ctx;
99 state = talloc_zero(result, struct connect_state);
100 if (composite_nomem(state, result)) return result;
101 result->private_data = state;
103 state->sock = talloc_reference(state, sock);
104 if (composite_nomem(state->sock, result)) return result;
107 void *ref = talloc_reference(state, my_address);
108 if (composite_nomem(ref, result)) {
111 state->my_address = my_address;
115 void *ref = talloc_reference(state, server_address);
116 if (composite_nomem(ref, result)) {
119 state->server_address = server_address;
122 state->flags = flags;
124 set_blocking(socket_get_fd(sock), false);
126 if (resolve_ctx != NULL && server_address->addr && strcmp(sock->backend_name, "ipv4") == 0) {
127 struct nbt_name name;
128 struct composite_context *creq;
129 make_nbt_name_client(&name, server_address->addr);
130 creq = resolve_name_send(resolve_ctx, &name, result->event_ctx);
131 if (composite_nomem(creq, result)) return result;
132 composite_continue(result, creq, continue_resolve_name, result);
136 socket_send_connect(result);
142 handle write events on connect completion
144 static void socket_connect_handler(struct event_context *ev,
145 struct fd_event *fde,
146 uint16_t flags, void *private)
148 struct composite_context *result =
149 talloc_get_type(private, struct composite_context);
150 struct connect_state *state = talloc_get_type(result->private_data,
151 struct connect_state);
153 result->status = socket_connect_complete(state->sock, state->flags);
154 if (!composite_is_ok(result)) return;
156 composite_done(result);
160 recv name resolution reply then send the connect
162 static void continue_resolve_name(struct composite_context *creq)
164 struct composite_context *result = talloc_get_type(creq->async.private_data,
165 struct composite_context);
166 struct connect_state *state = talloc_get_type(result->private_data, struct connect_state);
169 result->status = resolve_name_recv(creq, state, &addr);
170 if (!composite_is_ok(result)) return;
172 state->server_address = socket_address_from_strings(state, state->sock->backend_name,
173 addr, state->server_address->port);
174 if (composite_nomem(state->server_address, result)) return;
176 socket_send_connect(result);
180 called when a connect has finished. Complete the top level composite context
182 static void continue_socket_connect(struct composite_context *creq)
184 struct composite_context *result = talloc_get_type(creq->async.private_data,
185 struct composite_context);
186 result->status = creq->status;
187 if (!composite_is_ok(result)) return;
188 composite_done(result);
193 wait for a socket_connect_send() to finish
195 NTSTATUS socket_connect_recv(struct composite_context *result)
197 NTSTATUS status = composite_wait(result);
204 like socket_connect() but takes an event context, doing a semi-async connect
206 NTSTATUS socket_connect_ev(struct socket_context *sock,
207 struct socket_address *my_address,
208 struct socket_address *server_address,
209 uint32_t flags, struct resolve_context *resolve_ctx,
210 struct event_context *ev)
212 struct composite_context *ctx;
213 ctx = socket_connect_send(sock, my_address,
214 server_address, flags, resolve_ctx, ev);
215 return socket_connect_recv(ctx);