1 #ifndef _SECURITY_UTIL_H
2 #define _SECURITY_UTIL_H
5 * Amanda, The Advanced Maryland Automatic Network Disk Archiver
6 * Copyright (c) 1999 University of Maryland
9 * Permission to use, copy, modify, distribute, and sell this software and its
10 * documentation for any purpose is hereby granted without fee, provided that
11 * the above copyright notice appear in all copies and that both that
12 * copyright notice and this permission notice appear in supporting
13 * documentation, and that the name of U.M. not be used in advertising or
14 * publicity pertaining to distribution of the software without specific,
15 * written prior permission. U.M. makes no representations about the
16 * suitability of this software for any purpose. It is provided "as is"
17 * without express or implied warranty.
19 * U.M. DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL
20 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL U.M.
21 * BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
22 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
23 * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
24 * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
26 * Authors: the Amanda Development Team. Its members are listed in a
27 * file named AUTHORS, in the root directory of this distribution.
31 * $Id: security-util.h,v 1.5 2006/07/01 00:10:38 paddy_s Exp $
42 #define auth_debug(i, ...) do { \
43 if ((i) <= debug_auth) { \
44 dbprintf(__VA_ARGS__); \
50 # define KRB5_DEPRECATED 1
51 # ifndef KRB5_HEIMDAL_INCLUDES
52 # include <gssapi/gssapi_generic.h>
54 # include <gssapi/gssapi.h>
62 * This is a sec connection to a host. We should only have
63 * one connection per host.
66 const struct security_driver *driver; /* MUST be first */
67 int read, write; /* pipes to sec */
68 pid_t pid; /* pid of sec process */
69 char * pkt; /* last pkt read */
70 ssize_t pktlen; /* len of above */
71 event_handle_t * ev_read; /* read (EV_READFD) handle */
72 int ev_read_refcnt; /* number of readers */
73 char hostname[MAX_HOSTNAME_LENGTH+1];
74 /* host we're talking to */
75 char * errmsg; /* error passed up */
76 int refcnt; /* number of handles using */
77 int handle; /* last proto handle read */
78 void (*accept_fn)(security_handle_t *, pkt_t *);
79 struct sockaddr_storage peer;
80 TAILQ_ENTRY(tcp_conn) tq; /* queue handle */
81 int (*recv_security_ok)(struct sec_handle *, pkt_t *);
82 char * (*prefix_packet)(void *, pkt_t *);
86 char * (*conf_fn)(char *, void *);
89 gss_ctx_id_t gss_context;
97 * This is the private handle data.
100 security_handle_t sech; /* MUST be first */
101 char * hostname; /* ptr to rc->hostname */
102 struct sec_stream * rs; /* virtual stream we xmit over */
103 struct tcp_conn * rc; /* */
105 void (*recvpkt)(void *, pkt_t *, security_status_t);
106 /* func to call when packet recvd */
107 void (*connect)(void *, security_handle_t *, security_status_t);
108 /* func to call when connected */
110 void * arg; /* argument to pass function */
111 event_handle_t * ev_timeout; /* timeout handle for recv */
112 struct sockaddr_storage peer;
116 event_handle_t * ev_read;
117 struct sec_handle * prev;
118 struct sec_handle * next;
119 struct udp_handle * udp;
120 void (*accept_fn)(security_handle_t *, pkt_t *);
121 int (*recv_security_ok)(struct sec_handle *, pkt_t *);
125 * This is the internal security_stream data for sec.
128 security_stream_t secstr; /* MUST be first */
129 struct tcp_conn * rc; /* physical connection */
130 int handle; /* protocol handle */
131 event_handle_t * ev_read; /* read (EV_WAIT) event handle */
132 void (*fn)(void *, void *, ssize_t); /* read event fn */
133 void * arg; /* arg for previous */
135 char databuf[NETWORK_BLOCK_BYTES];
140 int closed_by_network;
144 TAILQ_HEAD(, tcp_conn) tailq;
147 extern struct connq_s connq;
149 #define connq_first() TAILQ_FIRST(&connq.tailq)
150 #define connq_next(rc) TAILQ_NEXT(rc, tq)
151 #define connq_append(rc) do { \
152 TAILQ_INSERT_TAIL(&connq.tailq, rc, tq); \
155 #define connq_remove(rc) do { \
156 assert(connq.qlength > 0); \
157 TAILQ_REMOVE(&connq.tailq, rc, tq); \
162 * This is data local to the datagram socket. We have one datagram
163 * per process per auth.
165 typedef struct udp_handle {
166 const struct security_driver *driver; /* MUST be first */
167 dgram_t dgram; /* datagram to read/write from */
168 struct sockaddr_storage peer; /* who sent it to us */
169 pkt_t pkt; /* parsed form of dgram */
170 char *handle; /* handle from recvd packet */
171 int sequence; /* seq no of packet */
172 event_handle_t *ev_read; /* read event handle from dgram */
173 int refcnt; /* number of handles blocked for reading */
174 struct sec_handle *bh_first, *bh_last;
175 void (*accept_fn)(security_handle_t *, pkt_t *);
176 int (*recv_security_ok)(struct sec_handle *, pkt_t *);
177 char *(*prefix_packet)(void *, pkt_t *);
181 * We register one event handler for our network fd which takes
182 * care of all of our async requests. When all async requests
183 * have either been satisfied or cancelled, we unregister our
184 * network event handler.
186 #define udp_addref(udp, netfd_read_callback) do { \
187 if ((udp)->refcnt++ == 0) { \
188 assert((udp)->ev_read == NULL); \
189 (udp)->ev_read = event_register((event_id_t)(udp)->dgram.socket,\
190 EV_READFD, netfd_read_callback, (udp)); \
192 assert((udp)->refcnt > 0); \
196 * If this is the last request to be removed, then remove the
197 * reader event from the netfd.
199 #define udp_delref(udp) do { \
200 assert((udp)->refcnt > 0); \
201 if (--(udp)->refcnt == 0) { \
202 assert((udp)->ev_read != NULL); \
203 event_release((udp)->ev_read); \
204 (udp)->ev_read = NULL; \
209 int sec_stream_auth(void *);
210 int sec_stream_id(void *);
211 void sec_accept(const security_driver_t *,
212 char *(*)(char *, void *),
214 void (*)(security_handle_t *, pkt_t *),
216 void sec_close(void *);
217 void sec_connect_callback(void *);
218 void sec_connect_timeout(void *);
219 void sec_close_connection_none(void *, char *);
221 ssize_t stream_sendpkt(void *, pkt_t *);
222 void stream_recvpkt(void *,
223 void (*)(void *, pkt_t *, security_status_t),
225 void stream_recvpkt_timeout(void *);
226 void stream_recvpkt_cancel(void *);
228 int tcpm_stream_write(void *, const void *, size_t);
229 void tcpm_stream_read(void *, void (*)(void *, void *, ssize_t), void *);
230 ssize_t tcpm_stream_read_sync(void *, void **);
231 void tcpm_stream_read_cancel(void *);
232 ssize_t tcpm_send_token(struct tcp_conn *, int, int, char **, const void *, size_t);
233 ssize_t tcpm_recv_token(struct tcp_conn *, int, int *, char **, char **, ssize_t *, int);
234 void tcpm_close_connection(void *, char *);
236 int tcpma_stream_accept(void *);
237 void * tcpma_stream_client(void *, int);
238 void * tcpma_stream_server(void *);
239 void tcpma_stream_close(void *);
241 void * tcp1_stream_server(void *);
242 int tcp1_stream_accept(void *);
243 void * tcp1_stream_client(void *, int);
245 int tcp_stream_write(void *, const void *, size_t);
247 char * bsd_prefix_packet(void *, pkt_t *);
248 int bsd_recv_security_ok(struct sec_handle *, pkt_t *);
250 ssize_t udpbsd_sendpkt(void *, pkt_t *);
251 void udp_close(void *);
252 void udp_recvpkt(void *, void (*)(void *, pkt_t *, security_status_t),
254 void udp_recvpkt_cancel(void *);
255 void udp_recvpkt_callback(void *);
256 void udp_recvpkt_timeout(void *);
257 int udp_inithandle(udp_handle_t *, struct sec_handle *, char *hostname,
258 struct sockaddr_storage *, in_port_t, char *, int);
259 void udp_netfd_read_callback(void *);
261 struct tcp_conn *sec_tcp_conn_get(const char *, int);
262 void sec_tcp_conn_put(struct tcp_conn *);
263 void sec_tcp_conn_read(struct tcp_conn *);
264 void parse_pkt(pkt_t *, const void *, size_t);
265 const char *pkthdr2str(const struct sec_handle *, const pkt_t *);
266 int str2pkthdr(udp_handle_t *);
267 char * check_user(struct sec_handle *, const char *, const char *);
269 char * check_user_ruserok (const char *host,
272 char * check_user_amandahosts(const char *host,
273 struct sockaddr_storage *addr,
276 const char *service);
278 ssize_t net_writev(int, struct iovec *, int);
279 ssize_t net_read(int, void *, size_t, int);
280 ssize_t net_read_fillbuf(int, int, void *, size_t);
281 void show_stat_info(char *a, char *b);
282 int check_name_give_sockaddr(const char *hostname, struct sockaddr *addr,
285 #endif /* _SECURITY_INFO_H */