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|
/* See the file COPYING for licensing information. */
#if defined HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <sys/time.h>
#include <sys/types.h>
#include <assert.h>
#include <freeradius/libradius.h>
#include <event2/event.h>
#include <event2/bufferevent.h>
#include <radsec/radsec.h>
#include <radsec/radsec-impl.h>
#include "compat.h"
#include "debug.h"
#if defined (RS_ENABLE_TLS)
#include <event2/bufferevent_ssl.h>
#include <openssl/err.h>
#include "tls.h"
#endif
#if defined (DEBUG)
#include <netdb.h>
#include <sys/socket.h>
#include <event2/buffer.h>
#endif
static int
_close_conn (struct rs_connection **connp)
{
int r;
assert (connp);
assert (*connp);
r = rs_conn_destroy (*connp);
if (!r)
*connp = NULL;
return r;
}
static int
_loopbreak (struct rs_connection *conn)
{
int err = event_base_loopbreak (conn->evb);
if (err < 0)
rs_err_conn_push_fl (conn, RSE_EVENT, __FILE__, __LINE__,
"event_base_loopbreak: %s",
evutil_gai_strerror (err));
return err;
}
/* Badly named helper function for preparing a RADIUS message and
queue it. FIXME: Rename. */
static int
_do_send (struct rs_packet *pkt)
{
VALUE_PAIR *vp = NULL;
assert (pkt->rpkt);
assert (!pkt->original);
/* Add Message-Authenticator, RFC 2869. */
/* FIXME: Make Message-Authenticator optional? */
vp = paircreate (PW_MESSAGE_AUTHENTICATOR, PW_TYPE_OCTETS);
if (!vp)
return rs_err_conn_push_fl (pkt->conn, RSE_FR, __FILE__, __LINE__,
"paircreate: %s", fr_strerror ());
pairadd (&pkt->rpkt->vps, vp);
if (rad_encode (pkt->rpkt, NULL, pkt->conn->active_peer->secret))
return rs_err_conn_push_fl (pkt->conn, RSE_FR, __FILE__, __LINE__,
"rad_encode: %s", fr_strerror ());
if (rad_sign (pkt->rpkt, NULL, pkt->conn->active_peer->secret))
return rs_err_conn_push_fl (pkt->conn, RSE_FR, __FILE__, __LINE__,
"rad_sign: %s", fr_strerror ());
#if defined (DEBUG)
{
char host[80], serv[80];
getnameinfo (pkt->conn->active_peer->addr->ai_addr,
pkt->conn->active_peer->addr->ai_addrlen,
host, sizeof(host), serv, sizeof(serv),
0 /* NI_NUMERICHOST|NI_NUMERICSERV*/);
rs_debug (("%s: about to send this to %s:%s:\n", __func__, host, serv));
rs_dump_packet (pkt);
}
#endif
if (pkt->conn->bev)
{
int err = bufferevent_write (pkt->conn->bev, pkt->rpkt->data,
pkt->rpkt->data_len);
if (err < 0)
return rs_err_conn_push_fl (pkt->conn, RSE_EVENT, __FILE__, __LINE__,
"bufferevent_write: %s",
evutil_gai_strerror (err));
}
else
{
struct rs_packet **pp = &pkt->conn->out_queue;
while (*pp && (*pp)->next)
*pp = (*pp)->next;
*pp = pkt;
}
return RSE_OK;
}
static void
_on_connect (struct rs_connection *conn, struct rs_packet *pkt)
{
assert (!conn->is_connecting);
conn->is_connected = 1;
rs_debug (("%s: %p connected\n", __func__, conn->active_peer));
if (conn->tev)
evtimer_del (conn->tev);
if (conn->callbacks.connected_cb)
conn->callbacks.connected_cb (conn->user_data);
if (pkt)
_do_send (pkt);
}
static void
_on_disconnect (struct rs_connection *conn)
{
conn->is_connecting = 0;
conn->is_connected = 0;
rs_debug (("%s: %p disconnected\n", __func__, conn->active_peer));
if (conn->callbacks.disconnected_cb)
conn->callbacks.disconnected_cb (conn->user_data);
}
static void
_event_cb (struct bufferevent *bev, short events, void *user_data)
{
struct rs_packet *pkt = (struct rs_packet *) user_data;
struct rs_connection *conn = NULL;
struct rs_peer *p = NULL;
int sockerr = 0;
#if defined (RS_ENABLE_TLS)
unsigned long tlserr = 0;
#endif
assert (pkt);
assert (pkt->conn);
assert (pkt->conn->active_peer);
conn = pkt->conn;
p = conn->active_peer;
conn->is_connecting = 0;
if (events & BEV_EVENT_CONNECTED)
{
_on_connect (conn, pkt);
}
else if (events & BEV_EVENT_EOF)
{
_on_disconnect (conn);
}
else if (events & BEV_EVENT_TIMEOUT)
{
rs_debug (("%s: %p times out on %s\n", __func__, p,
(events & BEV_EVENT_READING) ? "read" : "write"));
rs_err_conn_push_fl (pkt->conn, RSE_TIMEOUT_IO, __FILE__, __LINE__, NULL);
}
else if (events & BEV_EVENT_ERROR)
{
sockerr = evutil_socket_geterror (conn->active_peer->fd);
if (sockerr == 0) /* FIXME: True that errno == 0 means closed? */
{
_on_disconnect (conn);
}
else
{
rs_debug (("%s: %d: %d (%s)\n", __func__, conn->fd, sockerr,
evutil_socket_error_to_string (sockerr)));
rs_err_conn_push_fl (pkt->conn, RSE_SOCKERR, __FILE__, __LINE__,
"%d: %d (%s)", conn->fd, sockerr,
evutil_socket_error_to_string (sockerr));
}
#if defined (RS_ENABLE_TLS)
if (conn->tls_ssl) /* FIXME: correct check? */
{
for (tlserr = bufferevent_get_openssl_error (conn->bev);
tlserr;
tlserr = bufferevent_get_openssl_error (conn->bev))
{
rs_debug (("%s: openssl error: %s\n", __func__,
ERR_error_string (tlserr, NULL)));
rs_err_conn_push_fl (pkt->conn, RSE_SSLERR, __FILE__, __LINE__,
ERR_error_string (tlserr, NULL));
}
}
#endif /* RS_ENABLE_TLS */
_loopbreak (conn);
}
#if defined (DEBUG)
if (events & BEV_EVENT_ERROR && events != BEV_EVENT_ERROR)
rs_debug (("%s: BEV_EVENT_ERROR and more: 0x%x\n", __func__, events));
#endif
}
static void
_write_cb (struct bufferevent *bev, void *ctx)
{
struct rs_packet *pkt = (struct rs_packet *) ctx;
assert (pkt);
assert (pkt->conn);
if (pkt->conn->callbacks.sent_cb)
pkt->conn->callbacks.sent_cb (pkt->conn->user_data);
}
/* Read one RADIUS packet header. Return !0 on error. A return value
of 0 means that we need more data. */
static int
_read_header (struct rs_packet *pkt)
{
size_t n = 0;
n = bufferevent_read (pkt->conn->bev, pkt->hdr, RS_HEADER_LEN);
if (n == RS_HEADER_LEN)
{
pkt->hdr_read_flag = 1;
pkt->rpkt->data_len = (pkt->hdr[2] << 8) + pkt->hdr[3];
if (pkt->rpkt->data_len < 20 || pkt->rpkt->data_len > 4096)
{
_close_conn (&pkt->conn);
return rs_err_conn_push (pkt->conn, RSE_INVALID_PKT,
"invalid packet length: %d",
pkt->rpkt->data_len);
}
pkt->rpkt->data = rs_malloc (pkt->conn->ctx, pkt->rpkt->data_len);
if (!pkt->rpkt->data)
{
_close_conn (&pkt->conn);
return rs_err_conn_push_fl (pkt->conn, RSE_NOMEM, __FILE__, __LINE__,
NULL);
}
memcpy (pkt->rpkt->data, pkt->hdr, RS_HEADER_LEN);
bufferevent_setwatermark (pkt->conn->bev, EV_READ,
pkt->rpkt->data_len - RS_HEADER_LEN, 0);
rs_debug (("%s: packet header read, total pkt len=%d\n",
__func__, pkt->rpkt->data_len));
}
else if (n < 0)
{
rs_debug (("%s: buffer frozen while reading header\n", __func__));
}
else /* Error: libevent gave us less than the low watermark. */
{
_close_conn (&pkt->conn);
return rs_err_conn_push_fl (pkt->conn, RSE_INTERNAL, __FILE__, __LINE__,
"got %d octets reading header", n);
}
return 0;
}
static int
_read_packet (struct rs_packet *pkt)
{
size_t n = 0;
rs_debug (("%s: trying to read %d octets of packet data\n", __func__,
pkt->rpkt->data_len - RS_HEADER_LEN));
n = bufferevent_read (pkt->conn->bev,
pkt->rpkt->data + RS_HEADER_LEN,
pkt->rpkt->data_len - RS_HEADER_LEN);
rs_debug (("%s: read %ld octets of packet data\n", __func__, n));
if (n == pkt->rpkt->data_len - RS_HEADER_LEN)
{
bufferevent_disable (pkt->conn->bev, EV_READ);
rs_debug (("%s: complete packet read\n", __func__));
pkt->hdr_read_flag = 0;
memset (pkt->hdr, 0, sizeof(*pkt->hdr));
/* Checks done by rad_packet_ok:
- lenghts (FIXME: checks really ok for tcp?)
- invalid code field
- attribute lengths >= 2
- attribute sizes adding up correctly */
if (!rad_packet_ok (pkt->rpkt, 0) != 0)
{
_close_conn (&pkt->conn);
return rs_err_conn_push_fl (pkt->conn, RSE_FR, __FILE__, __LINE__,
"invalid packet: %s", fr_strerror ());
}
/* TODO: Verify that reception of an unsolicited response packet
results in connection being closed. */
/* If we have a request to match this response against, verify
and decode the response. */
if (pkt->original)
{
/* Verify header and message authenticator. */
if (rad_verify (pkt->rpkt, pkt->original->rpkt,
pkt->conn->active_peer->secret))
{
_close_conn (&pkt->conn);
return rs_err_conn_push_fl (pkt->conn, RSE_FR, __FILE__, __LINE__,
"rad_verify: %s", fr_strerror ());
}
/* Decode and decrypt. */
if (rad_decode (pkt->rpkt, pkt->original->rpkt,
pkt->conn->active_peer->secret))
{
_close_conn (&pkt->conn);
return rs_err_conn_push_fl (pkt->conn, RSE_FR, __FILE__, __LINE__,
"rad_decode: %s", fr_strerror ());
}
}
#if defined (DEBUG)
/* Find out what happens if there's data left in the buffer. */
{
size_t rest = 0;
rest = evbuffer_get_length (bufferevent_get_input (pkt->conn->bev));
if (rest)
rs_debug (("%s: returning with %d octets left in buffer\n", __func__,
rest));
}
#endif
/* Hand over message to user, changes ownership of pkt. Don't
touch it afterwards -- it might have been freed. */
if (pkt->conn->callbacks.received_cb)
pkt->conn->callbacks.received_cb (pkt, pkt->conn->user_data);
}
else if (n < 0) /* Buffer frozen. */
rs_debug (("%s: buffer frozen when reading packet\n", __func__));
else /* Short packet. */
rs_debug (("%s: waiting for another %d octets\n", __func__,
pkt->rpkt->data_len - RS_HEADER_LEN - n));
return 0;
}
/* Read callback for TCP.
Read exactly one RADIUS message from BEV and store it in struct
rs_packet passed in CTX (hereby called 'pkt').
Verify the received packet against pkt->original, if !NULL.
Inform upper layer about successful reception of valid RADIUS
message by invoking conn->callbacks.recevied_cb(), if !NULL. */
static void
_read_cb (struct bufferevent *bev, void *user_data)
{
struct rs_packet *pkt = (struct rs_packet *) user_data;
assert (pkt);
assert (pkt->conn);
assert (pkt->rpkt);
pkt->rpkt->sockfd = pkt->conn->fd;
pkt->rpkt->vps = NULL;
if (!pkt->hdr_read_flag)
if (_read_header (pkt))
return;
_read_packet (pkt);
}
static void
_evlog_cb (int severity, const char *msg)
{
const char *sevstr;
switch (severity)
{
case _EVENT_LOG_DEBUG:
#if !defined (DEBUG_LEVENT)
return;
#endif
sevstr = "debug";
break;
case _EVENT_LOG_MSG:
sevstr = "msg";
break;
case _EVENT_LOG_WARN:
sevstr = "warn";
break;
case _EVENT_LOG_ERR:
sevstr = "err";
break;
default:
sevstr = "???";
break;
}
fprintf (stderr, "libevent: [%s] %s\n", sevstr, msg); /* FIXME: stderr? */
}
static int
_init_eventbase (struct rs_connection *conn)
{
if (conn->evb)
return RSE_OK;
#if defined (DEBUG)
event_enable_debug_mode ();
#endif
event_set_log_callback (_evlog_cb);
conn->evb = event_base_new ();
if (!conn->evb)
return rs_err_conn_push_fl (conn, RSE_EVENT, __FILE__, __LINE__,
"event_base_new");
return RSE_OK;
}
static int
_init_socket (struct rs_connection *conn, struct rs_peer *p)
{
if (conn->fd != -1)
return RSE_OK;
assert (p->addr);
conn->fd = socket (p->addr->ai_family, p->addr->ai_socktype,
p->addr->ai_protocol);
if (conn->fd < 0)
return rs_err_conn_push_fl (conn, RSE_SOCKERR, __FILE__, __LINE__,
"socket: %d (%s)",
errno, strerror (errno));
if (evutil_make_socket_nonblocking (conn->fd) < 0)
{
evutil_closesocket (conn->fd);
conn->fd = -1;
return rs_err_conn_push_fl (conn, RSE_SOCKERR, __FILE__, __LINE__,
"evutil_make_socket_nonblocking: %d (%s)",
errno, strerror (errno));
}
return RSE_OK;
}
static struct rs_peer *
_pick_peer (struct rs_connection *conn)
{
assert (conn);
if (conn->active_peer)
conn->active_peer = conn->active_peer->next; /* Next. */
if (!conn->active_peer)
conn->active_peer = conn->peers; /* From the top. */
return conn->active_peer;
}
static void
_conn_timeout_cb (int fd, short event, void *data)
{
struct rs_connection *conn;
assert (data);
conn = (struct rs_connection *) data;
if (event & EV_TIMEOUT)
{
rs_debug (("%s: connection timeout on %p (fd %d) connecting to %p\n",
__func__, conn, conn->fd, conn->active_peer));
conn->is_connecting = 0;
rs_err_conn_push_fl (conn, RSE_TIMEOUT_IO, __FILE__, __LINE__, NULL);
_loopbreak (conn);
}
}
static int
_set_timeout (struct rs_connection *conn)
{
struct timeval tv;
if (!conn->tev)
conn->tev = evtimer_new (conn->evb, _conn_timeout_cb, conn);
if (!conn->tev)
return rs_err_conn_push_fl (conn, RSE_EVENT, __FILE__, __LINE__,
"evtimer_new");
tv.tv_sec = conn->realm->timeout;
tv.tv_usec = 0;
evtimer_add (conn->tev, &tv);
return RSE_OK;
}
static int
_init_bufferevent (struct rs_connection *conn, struct rs_peer *peer)
{
if (conn->bev)
return RSE_OK;
if (conn->realm->type == RS_CONN_TYPE_TCP)
{
conn->bev = bufferevent_socket_new (conn->evb, conn->fd, 0);
if (!conn->bev)
return rs_err_conn_push_fl (conn, RSE_EVENT, __FILE__, __LINE__,
"bufferevent_socket_new");
}
#if defined (RS_ENABLE_TLS)
else if (conn->realm->type == RS_CONN_TYPE_TLS)
{
if (rs_tls_init (conn))
return -1;
/* Would be convenient to pass BEV_OPT_CLOSE_ON_FREE but things
seem to break when be_openssl_ctrl() (in libevent) calls
SSL_set_bio() after BIO_new_socket() with flag=1. */
conn->bev =
bufferevent_openssl_socket_new (conn->evb, conn->fd, conn->tls_ssl,
BUFFEREVENT_SSL_CONNECTING, 0);
if (!conn->bev)
return rs_err_conn_push_fl (conn, RSE_EVENT, __FILE__, __LINE__,
"bufferevent_openssl_socket_new");
}
#endif /* RS_ENABLE_TLS */
else
{
return rs_err_conn_push_fl (conn, RSE_INTERNAL, __FILE__, __LINE__,
"%s: unknown connection type: %d", __func__,
conn->realm->type);
}
return RSE_OK;
}
/* Callback for conn->wev and conn->rev. FIXME: Rename. */
static void
_evcb (evutil_socket_t fd, short what, void *user_data)
{
//rs_debug (("%s: fd=%d what=0x%x\n", __func__, fd, what));
if (what & EV_TIMEOUT)
{
struct rs_connection *conn = (struct rs_connection *) user_data;
assert (conn);
conn->is_connecting = 0;
rs_debug (("%s: UDP timeout NYI", __func__));
}
else if (what & EV_READ)
{
struct rs_connection *conn = (struct rs_connection *) user_data;
assert (conn);
/* read a single UDP packet and stick it in a new struct
rs_packet */
rs_debug (("%s: UDP read NYI", __func__));
}
else if (what & EV_WRITE)
{
struct rs_packet *pkt = (struct rs_packet *) user_data;
assert (pkt);
/* Socket ready for writing, possibly as a result of a
successful connect. */
if (!pkt->conn->is_connected)
_on_connect (pkt->conn, pkt);
if (pkt->conn->out_queue)
{
/* Send one packet, the first. */
ssize_t r = 0;
struct rs_packet *p = pkt->conn->out_queue;
assert (p->rpkt);
assert (p->rpkt->data);
r = compat_send (fd, p->rpkt->data, p->rpkt->data_len, 0);
if (r == -1)
{
int sockerr = evutil_socket_geterror (p->conn->fd);
if (sockerr != EAGAIN)
rs_err_conn_push_fl (p->conn, RSE_SOCKERR, __FILE__, __LINE__,
"%d: send: %d (%s)", fd, sockerr,
evutil_socket_error_to_string (sockerr));
return; /* Don't unlink packet. */
}
pkt->conn->out_queue = p->next;
}
}
}
static int
_init_udp (struct rs_connection *conn, struct rs_packet *pkt)
{
assert (!conn->bev);
conn->rev = event_new (conn->evb, conn->fd, EV_READ|EV_PERSIST, _evcb, conn);
conn->wev = event_new (conn->evb, conn->fd, EV_WRITE|EV_PERSIST, _evcb, pkt);
if (!conn->rev || !conn->wev)
{
if (conn->rev)
event_free (conn->rev);
/* ENOMEM _or_ EINVAL but EINVAL only if we use EV_SIGNAL, at
least for now (libevent-2.0.5). */
return rs_err_conn_push_fl (conn, RSE_NOMEM, __FILE__, __LINE__, NULL);
}
return RSE_OK;
}
static void
_do_connect (struct rs_connection *conn)
{
struct rs_peer *p;
int err, sockerr;
assert (conn);
assert (conn->active_peer);
p = conn->active_peer;
#if defined (DEBUG)
{
char host[80], serv[80];
getnameinfo (p->addr->ai_addr,
p->addr->ai_addrlen,
host, sizeof(host), serv, sizeof(serv),
0 /* NI_NUMERICHOST|NI_NUMERICSERV*/);
rs_debug (("%s: connecting to %s:%s\n", __func__, host, serv));
}
#endif
if (p->conn->bev) /* TCP */
{
_set_timeout (conn);
err = bufferevent_socket_connect (p->conn->bev, p->addr->ai_addr,
p->addr->ai_addrlen);
if (err < 0)
rs_err_conn_push_fl (p->conn, RSE_EVENT, __FILE__, __LINE__,
"bufferevent_socket_connect: %s",
evutil_gai_strerror (err));
else
p->conn->is_connecting = 1;
}
else /* UDP */
{
err = connect (p->conn->fd, p->addr->ai_addr, p->addr->ai_addrlen);
if (err < 0)
{
sockerr = evutil_socket_geterror (p->conn->fd);
rs_debug (("%s: %d: connect: %d (%s)\n", __func__, p->conn->fd,
sockerr, evutil_socket_error_to_string (sockerr)));
rs_err_conn_push_fl (p->conn, RSE_SOCKERR, __FILE__, __LINE__,
"%d: connect: %d (%s)", p->conn->fd, sockerr,
evutil_socket_error_to_string (sockerr));
}
}
}
static int
_conn_open (struct rs_connection *conn, struct rs_packet *pkt)
{
if (_init_eventbase (conn))
return -1;
if (!conn->active_peer)
_pick_peer (conn);
if (!conn->active_peer)
return rs_err_conn_push_fl (conn, RSE_NOPEER, __FILE__, __LINE__, NULL);
if (_init_socket (conn, conn->active_peer))
return -1;
if (conn->realm->type == RS_CONN_TYPE_TCP
|| conn->realm->type == RS_CONN_TYPE_TLS)
{
if (_init_bufferevent (conn, conn->active_peer))
return -1;
}
else
{
if (_init_udp (conn, pkt))
return -1;
}
if (!conn->is_connected)
if (!conn->is_connecting)
_do_connect (conn);
return RSE_OK;
}
static int
_conn_is_open_p (struct rs_connection *conn)
{
return conn->active_peer && conn->is_connected;
}
/* Public functions. */
int
rs_packet_create (struct rs_connection *conn, struct rs_packet **pkt_out)
{
struct rs_packet *p;
RADIUS_PACKET *rpkt;
*pkt_out = NULL;
rpkt = rad_alloc (1);
if (!rpkt)
return rs_err_conn_push (conn, RSE_NOMEM, __func__);
rpkt->id = conn->nextid++;
p = (struct rs_packet *) malloc (sizeof (struct rs_packet));
if (!p)
{
rad_free (&rpkt);
return rs_err_conn_push (conn, RSE_NOMEM, __func__);
}
memset (p, 0, sizeof (struct rs_packet));
p->conn = conn;
p->rpkt = rpkt;
*pkt_out = p;
return RSE_OK;
}
int
rs_packet_create_authn_request (struct rs_connection *conn,
struct rs_packet **pkt_out,
const char *user_name, const char *user_pw)
{
struct rs_packet *pkt;
struct rs_attr *attr;
if (rs_packet_create (conn, pkt_out))
return -1;
pkt = *pkt_out;
pkt->rpkt->code = PW_AUTHENTICATION_REQUEST;
if (user_name)
{
if (rs_attr_create (conn, &attr, "User-Name", user_name))
return -1;
rs_packet_add_attr (pkt, attr);
if (user_pw)
{
if (rs_attr_create (conn, &attr, "User-Password", user_pw))
return -1;
rs_packet_add_attr (pkt, attr);
}
}
return RSE_OK;
}
/* User callback used when we're dispatching for user. */
static void
_wcb (void *user_data)
{
struct rs_packet *pkt = (struct rs_packet *) user_data;
assert (pkt);
pkt->written_flag = 1;
if (pkt->conn->bev)
bufferevent_disable (pkt->conn->bev, EV_WRITE|EV_READ);
else
event_del (pkt->conn->wev);
}
int
rs_packet_send (struct rs_packet *pkt, void *user_data)
{
struct rs_connection *conn = NULL;
int err = 0;
assert (pkt);
assert (pkt->conn);
conn = pkt->conn;
if (_conn_is_open_p (conn))
_do_send (pkt);
else
if (_conn_open (conn, pkt))
return -1;
assert (conn->evb);
assert (conn->active_peer);
assert (conn->fd >= 0);
conn->user_data = user_data;
if (conn->bev) /* TCP */
{
bufferevent_setcb (conn->bev, NULL, _write_cb, _event_cb, pkt);
bufferevent_enable (conn->bev, EV_WRITE);
}
else /* UDP */
{
err = event_add (conn->wev, NULL);
if (err < 0)
return rs_err_conn_push_fl (pkt->conn, RSE_EVENT, __FILE__, __LINE__,
"event_add: %s",
evutil_gai_strerror (err));
}
/* Do dispatch, unless the user wants to do it herself. */
if (!conn->user_dispatch_flag)
{
conn->callbacks.sent_cb = _wcb;
conn->user_data = pkt;
rs_debug (("%s: entering event loop\n", __func__));
err = event_base_dispatch (conn->evb);
if (err < 0)
return rs_err_conn_push_fl (pkt->conn, RSE_EVENT, __FILE__, __LINE__,
"event_base_dispatch: %s",
evutil_gai_strerror (err));
rs_debug (("%s: event loop done\n", __func__));
conn->callbacks.sent_cb = NULL;
conn->user_data = NULL;
if (!pkt->written_flag)
return -1;
}
return RSE_OK;
}
static void
_rcb (struct rs_packet *packet, void *user_data)
{
struct rs_packet *pkt = (struct rs_packet *) user_data;
assert (pkt);
pkt->valid_flag = 1;
if (pkt->conn->bev)
bufferevent_disable (pkt->conn->bev, EV_WRITE|EV_READ);
else
event_del (pkt->conn->rev);
}
/* Special function used in libradsec blocking dispatching mode,
i.e. with socket set to block on read/write and with no libradsec
callbacks registered.
For any other use of libradsec, a the received_cb callback should
be registered in the callbacks member of struct rs_connection.
On successful reception, verification and decoding of a RADIUS
message, PKT_OUT will upon return point at a pointer to a struct
rs_packet containing the message.
If anything goes wrong or if the read times out (TODO: explain),
PKT_OUT will point at the NULL pointer and one or more errors are
pushed on the connection (available through rs_err_conn_pop()). */
int
rs_conn_receive_packet (struct rs_connection *conn,
struct rs_packet *request,
struct rs_packet **pkt_out)
{
int err = 0;
struct rs_packet *pkt = NULL;
assert (conn);
assert (conn->realm);
assert (!conn->user_dispatch_flag); /* Dispatching mode only. */
if (rs_packet_create (conn, pkt_out))
return -1;
pkt = *pkt_out;
pkt->conn = conn;
pkt->original = request;
assert (conn->evb);
assert (conn->bev);
assert (conn->active_peer);
assert (conn->fd >= 0);
conn->callbacks.received_cb = _rcb;
conn->user_data = pkt;
if (conn->bev)
{
bufferevent_setwatermark (conn->bev, EV_READ, RS_HEADER_LEN, 0);
bufferevent_setcb (conn->bev, _read_cb, NULL, _event_cb, pkt);
bufferevent_enable (conn->bev, EV_READ);
}
else
{
err = event_add (conn->rev, NULL);
if (err < 0)
return rs_err_conn_push_fl (pkt->conn, RSE_EVENT, __FILE__, __LINE__,
"event_add: %s",
evutil_gai_strerror (err));
}
/* Dispatch. */
rs_debug (("%s: entering event loop\n", __func__));
err = event_base_dispatch (conn->evb);
conn->callbacks.received_cb = NULL;
if (err < 0)
return rs_err_conn_push_fl (pkt->conn, RSE_EVENT, __FILE__, __LINE__,
"event_base_dispatch: %s",
evutil_gai_strerror (err));
rs_debug (("%s: event loop done\n", __func__));
if (!pkt->valid_flag)
return -1;
#if defined (DEBUG)
rs_dump_packet (pkt);
#endif
pkt->original = NULL; /* FIXME: Why? */
return RSE_OK;
}
void
rs_packet_add_attr (struct rs_packet *pkt, struct rs_attr *attr)
{
pairadd (&pkt->rpkt->vps, attr->vp);
attr->pkt = pkt;
}
struct radius_packet *
rs_packet_frpkt (struct rs_packet *pkt)
{
assert (pkt);
return pkt->rpkt;
}
void
rs_packet_destroy (struct rs_packet *pkt)
{
if (pkt)
{
// FIXME: memory leak! TODO: free all attributes
rad_free (&pkt->rpkt);
rs_free (pkt->conn->ctx, pkt);
}
}
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