/*** this is a soft close *****************************************************/
void pptp_conn_close(PPTP_CONN * conn, u_int8_t close_reason)
{
struct pptp_stop_ctrl_conn rqst = {
PPTP_HEADER_CTRL(PPTP_STOP_CTRL_CONN_RQST),
hton8(close_reason), 0, 0
};
int i;
assert(conn && conn->call);
/* avoid repeated close attempts */
if (conn->conn_state == CONN_IDLE || conn->conn_state == CONN_WAIT_STOP_REPLY)
return;
/* close open calls, if any */
for (i = 0; i < vector_size(conn->call); i++)
pptp_call_close(conn, vector_get_Nth(conn->call, i));
/* now close connection */
log("Closing PPTP connection");
pptp_send_ctrl_packet(conn, &rqst, sizeof(rqst));
pptp_reset_timer(); /* wait 60 seconds for reply */
conn->conn_state = CONN_WAIT_STOP_REPLY;
return;
}
/* Open new pptp_connection. Returns NULL on failure. */
PPTP_CONN * pptp_conn_open(int inet_sock, int isclient, pptp_conn_cb callback)
{
PPTP_CONN *conn;
/* Allocate structure */
if ((conn = malloc(sizeof(*conn))) == NULL) return NULL;
if ((conn->call = vector_create()) == NULL) { free(conn); return NULL; }
/* Initialize */
conn->inet_sock = inet_sock;
conn->conn_state = CONN_IDLE;
conn->ka_state = KA_NONE;
conn->ka_id = 1;
conn->call_serial_number = 0;
conn->callback = callback;
/* Create I/O buffers */
conn->read_size = conn->write_size = 0;
conn->read_alloc = conn->write_alloc = INITIAL_BUFSIZE;
conn->read_buffer =
malloc(sizeof(*(conn->read_buffer)) * conn->read_alloc);
conn->write_buffer =
malloc(sizeof(*(conn->write_buffer)) * conn->write_alloc);
if (conn->read_buffer == NULL || conn->write_buffer == NULL) {
if (conn->read_buffer != NULL) free(conn->read_buffer);
if (conn->write_buffer != NULL) free(conn->write_buffer);
vector_destroy(conn->call); free(conn); return NULL;
}
/* Make this socket non-blocking. */
fcntl(conn->inet_sock, F_SETFL, O_NONBLOCK);
/* Request connection from server, if this is a client */
if (isclient) {
struct pptp_start_ctrl_conn packet = {
PPTP_HEADER_CTRL(PPTP_START_CTRL_CONN_RQST),
hton16(PPTP_VERSION), 0, 0,
hton32(PPTP_FRAME_CAP), hton32(PPTP_BEARER_CAP),
hton16(PPTP_MAX_CHANNELS), hton16(PPTP_FIRMWARE_VERSION),
PPTP_HOSTNAME, PPTP_VENDOR
};
/* fix this packet, if necessary */
int idx, rc;
idx = get_quirk_index();
if (idx != -1 && pptp_fixups[idx].start_ctrl_conn) {
if ((rc = pptp_fixups[idx].start_ctrl_conn(&packet)))
warn("calling the start_ctrl_conn hook failed (%d)", rc);
}
if (pptp_send_ctrl_packet(conn, &packet, sizeof(packet)))
conn->conn_state = CONN_WAIT_CTL_REPLY;
else
return NULL; /* could not send initial start request. */
}
/* Set up interval/keep-alive timer */
/* First, register handler for SIGALRM */
sigpipe_create();
sigpipe_assign(SIGALRM);
global.conn = conn;
/* Reset event timer */
pptp_reset_timer();
/* all done. */
return conn;
}
/* This currently *only* works for client call requests.
* We need to do something else to allocate calls for incoming requests.
*/
PPTP_CALL * pptp_call_open(PPTP_CONN * conn, pptp_call_cb callback,
char *phonenr)
{
PPTP_CALL * call;
int i;
int idx, rc;
/* Send off the call request */
struct pptp_out_call_rqst packet = {
PPTP_HEADER_CTRL(PPTP_OUT_CALL_RQST),
0,0, /*call_id, sernum */
hton32(PPTP_BPS_MIN), hton32(PPTP_BPS_MAX),
hton32(PPTP_BEARER_CAP), hton32(PPTP_FRAME_CAP),
hton16(PPTP_WINDOW), 0, 0, 0, {0}, {0}
};
assert(conn && conn->call);
assert(conn->conn_state == CONN_ESTABLISHED);
/* Assign call id */
if (!vector_scan(conn->call, 0, PPTP_MAX_CHANNELS - 1, &i))
/* no more calls available! */
return NULL;
/* allocate structure. */
if ((call = malloc(sizeof(*call))) == NULL) return NULL;
/* Initialize call structure */
call->call_type = PPTP_CALL_PNS;
call->state.pns = PNS_IDLE;
call->call_id = (u_int16_t) i;
call->sernum = conn->call_serial_number++;
call->callback = callback;
call->closure = NULL;
packet.call_id = htons(call->call_id);
packet.call_sernum = htons(call->sernum);
/* if we have a quirk, build a new packet to fit it */
idx = get_quirk_index();
if (idx != -1 && pptp_fixups[idx].out_call_rqst_hook) {
if ((rc = pptp_fixups[idx].out_call_rqst_hook(&packet)))
warn("calling the out_call_rqst hook failed (%d)", rc);
}
/* fill in the phone number if it was specified */
if (phonenr) {
strncpy((char *)packet.phone_num, phonenr, sizeof(packet.phone_num));
packet.phone_len = strlen(phonenr);
if( packet.phone_len > sizeof(packet.phone_num))
packet.phone_len = sizeof(packet.phone_num);
packet.phone_len = hton16 (packet.phone_len);
}
if (pptp_send_ctrl_packet(conn, &packet, sizeof(packet))) {
pptp_reset_timer();
call->state.pns = PNS_WAIT_REPLY;
/* and add it to the call vector */
vector_insert(conn->call, i, call);
return call;
} else { /* oops, unsuccessful. Deallocate. */
free(call);
return NULL;
}
}
/* return 0 on success, non zero otherwise */
int
orckit_atur3_set_link_hook(struct pptp_set_link_info* packet,
int peer_call_id)
{
struct pptp_set_link_info fixed_packet = {
PPTP_HEADER_CTRL(PPTP_SET_LINK_INFO),
hton16(peer_call_id),
0,
0xffffffff,
0xffffffff};
if (!packet)
return -1;
memcpy(packet, &fixed_packet, sizeof(*packet));
return 0;
}
/*** Handle keep-alive timer **************************************************/
static void pptp_handle_timer(int sig)
{
int i;
/* "Keep Alives and Timers, 1": check connection state */
if (global.conn->conn_state != CONN_ESTABLISHED) {
if (global.conn->conn_state == CONN_WAIT_STOP_REPLY)
/* hard close. */
pptp_conn_destroy(global.conn);
else /* soft close */
pptp_conn_close(global.conn, PPTP_STOP_NONE);
}
/* "Keep Alives and Timers, 2": check echo status */
if (global.conn->ka_state == KA_OUTSTANDING) /*no response to keep-alive*/
pptp_conn_close(global.conn, PPTP_STOP_NONE);
else { /* ka_state == NONE */ /* send keep-alive */
struct pptp_echo_rqst rqst = {
PPTP_HEADER_CTRL(PPTP_ECHO_RQST), hton32(global.conn->ka_id) };
pptp_send_ctrl_packet(global.conn, &rqst, sizeof(rqst));
global.conn->ka_state = KA_OUTSTANDING;
/* XXX FIXME: wake up ctrl thread -- or will the SIGALRM do that
* automagically? XXX
*/
}
/* check incoming/outgoing call states for !IDLE && !ESTABLISHED */
for (i = 0; i < vector_size(global.conn->call); i++) {
PPTP_CALL * call = vector_get_Nth(global.conn->call, i);
if (call->call_type == PPTP_CALL_PNS) {
if (call->state.pns == PNS_WAIT_REPLY) {
/* send close request */
pptp_call_close(global.conn, call);
assert(call->state.pns == PNS_WAIT_DISCONNECT);
} else if (call->state.pns == PNS_WAIT_DISCONNECT) {
/* hard-close the call */
pptp_call_destroy(global.conn, call);
}
} else if (call->call_type == PPTP_CALL_PAC) {
if (call->state.pac == PAC_WAIT_REPLY) {
/* XXX FIXME -- drop the PAC connection XXX */
} else if (call->state.pac == PAC_WAIT_CS_ANS) {
/* XXX FIXME -- drop the PAC connection XXX */
}
}
}
pptp_reset_timer();
}
/*** pptp_call_close **********************************************************/
void pptp_call_close(PPTP_CONN * conn, PPTP_CALL * call)
{
struct pptp_call_clear_rqst rqst = {
PPTP_HEADER_CTRL(PPTP_CALL_CLEAR_RQST), 0, 0
};
assert(conn && conn->call); assert(call);
assert(vector_contains(conn->call, call->call_id));
/* haven't thought about PAC yet */
assert(call->call_type == PPTP_CALL_PNS);
assert(call->state.pns != PNS_IDLE);
rqst.call_id = hton16(call->call_id);
/* don't check state against WAIT_DISCONNECT... allow multiple disconnect
* requests to be made.
*/
pptp_send_ctrl_packet(conn, &rqst, sizeof(rqst));
pptp_reset_timer();
call->state.pns = PNS_WAIT_DISCONNECT;
/* call structure will be freed when we have confirmation of disconnect. */
}
/* return 0 on success, non zero otherwise */
int
orckit_atur3_build_hook(struct pptp_out_call_rqst* packet)
{
unsigned int name_length = 10;
struct pptp_out_call_rqst fixed_packet = {
PPTP_HEADER_CTRL(PPTP_OUT_CALL_RQST),
0, /* hton16(call->callid) */
0, /* hton16(call->sernum) */
hton32(PPTP_BPS_MIN), hton32(PPTP_BPS_MAX),
hton32(PPTP_BEARER_DIGITAL), hton32(PPTP_FRAME_ANY),
hton16(PPTP_WINDOW), 0, hton16(name_length), 0,
{'R','E','L','A','Y','_','P','P','P','1',0}, {0}
};
if (!packet)
return -1;
memcpy(packet, &fixed_packet, sizeof(*packet));
return 0;
}
/*** pptp_dispatch_ctrl_packet ************************************************/
int ctrlp_disp(PPTP_CONN * conn, void * buffer, size_t size)
{
struct pptp_header *header = (struct pptp_header *)buffer;
u_int8_t close_reason = PPTP_STOP_NONE;
assert(conn && conn->call); assert(buffer);
assert(ntoh32(header->magic) == PPTP_MAGIC);
assert(ntoh16(header->length) == size);
assert(ntoh16(header->pptp_type) == PPTP_MESSAGE_CONTROL);
if (size < PPTP_CTRL_SIZE(ntoh16(header->ctrl_type))) {
log("Invalid packet received [type: %d; length: %d].",
(int) ntoh16(header->ctrl_type), (int) size);
return 0;
}
switch (ntoh16(header->ctrl_type)) {
/* ----------- STANDARD Start-Session MESSAGES ------------ */
case PPTP_START_CTRL_CONN_RQST:
{
struct pptp_start_ctrl_conn *packet =
(struct pptp_start_ctrl_conn *) buffer;
struct pptp_start_ctrl_conn reply = {
PPTP_HEADER_CTRL(PPTP_START_CTRL_CONN_RPLY),
hton16(PPTP_VERSION), 0, 0,
hton32(PPTP_FRAME_CAP), hton32(PPTP_BEARER_CAP),
hton16(PPTP_MAX_CHANNELS), hton16(PPTP_FIRMWARE_VERSION),
PPTP_HOSTNAME, PPTP_VENDOR };
int idx, rc;
log("Received Start Control Connection Request");
/* fix this packet, if necessary */
idx = get_quirk_index();
if (idx != -1 && pptp_fixups[idx].start_ctrl_conn) {
if ((rc = pptp_fixups[idx].start_ctrl_conn(&reply)))
warn("calling the start_ctrl_conn hook failed (%d)", rc);
}
if (conn->conn_state == CONN_IDLE) {
if (ntoh16(packet->version) < PPTP_VERSION) {
/* Can't support this (earlier) PPTP_VERSION */
reply.version = packet->version;
/* protocol version not supported */
reply.result_code = hton8(5);
pptp_send_ctrl_packet(conn, &reply, sizeof(reply));
pptp_reset_timer(); /* give sender a chance for a retry */
} else { /* same or greater version */
if (pptp_send_ctrl_packet(conn, &reply, sizeof(reply))) {
conn->conn_state = CONN_ESTABLISHED;
log("server connection ESTABLISHED.");
pptp_reset_timer();
}
}
}
break;
}
case PPTP_START_CTRL_CONN_RPLY:
{
struct pptp_start_ctrl_conn *packet =
(struct pptp_start_ctrl_conn *) buffer;
log("Received Start Control Connection Reply");
if (conn->conn_state == CONN_WAIT_CTL_REPLY) {
/* XXX handle collision XXX [see rfc] */
if (ntoh16(packet->version) != PPTP_VERSION) {
if (conn->callback != NULL)
conn->callback(conn, CONN_OPEN_FAIL);
close_reason = PPTP_STOP_PROTOCOL;
goto pptp_conn_close;
}
if (ntoh8(packet->result_code) != 1 &&
/* J'ai change le if () afin que la connection ne se ferme
* pas pour un "rien" :p [email protected] -
*
* Don't close the connection if the result code is zero
* (feature found in certain ADSL modems)
*/
ntoh8(packet->result_code) != 0) {
log("Negative reply received to our Start Control "
"Connection Request");
ctrlp_error(packet->result_code, packet->error_code,
-1, pptp_start_ctrl_conn_rply,
MAX_START_CTRL_CONN_REPLY);
if (conn->callback != NULL)
conn->callback(conn, CONN_OPEN_FAIL);
close_reason = PPTP_STOP_PROTOCOL;
goto pptp_conn_close;
}
conn->conn_state = CONN_ESTABLISHED;
/* log session properties */
conn->version = ntoh16(packet->version);
conn->firmware_rev = ntoh16(packet->firmware_rev);
memcpy(conn->hostname, packet->hostname, sizeof(conn->hostname));
memcpy(conn->vendor, packet->vendor, sizeof(conn->vendor));
pptp_reset_timer(); /* 60 seconds until keep-alive */
log("Client connection established.");
if (conn->callback != NULL)
conn->callback(conn, CONN_OPEN_DONE);
} /* else goto pptp_conn_close; */
break;
}
/* ----------- STANDARD Stop-Session MESSAGES ------------ */
case PPTP_STOP_CTRL_CONN_RQST:
{
/* conn_state should be CONN_ESTABLISHED, but it could be
* something else */
struct pptp_stop_ctrl_conn reply = {
PPTP_HEADER_CTRL(PPTP_STOP_CTRL_CONN_RPLY),
hton8(1), hton8(PPTP_GENERAL_ERROR_NONE), 0
};
log("Received Stop Control Connection Request.");
if (conn->conn_state == CONN_IDLE) break;
if (pptp_send_ctrl_packet(conn, &reply, sizeof(reply))) {
if (conn->callback != NULL)
conn->callback(conn, CONN_CLOSE_RQST);
conn->conn_state = CONN_IDLE;
return -1;
}
break;
}
case PPTP_STOP_CTRL_CONN_RPLY:
{
log("Received Stop Control Connection Reply.");
/* conn_state should be CONN_WAIT_STOP_REPLY, but it
* could be something else */
if (conn->conn_state == CONN_IDLE) break;
conn->conn_state = CONN_IDLE;
return -1;
}
/* ----------- STANDARD Echo/Keepalive MESSAGES ------------ */
case PPTP_ECHO_RPLY:
{
struct pptp_echo_rply *packet =
(struct pptp_echo_rply *) buffer;
logecho( PPTP_ECHO_RPLY);
if ((conn->ka_state == KA_OUTSTANDING) &&
(ntoh32(packet->identifier) == conn->ka_id)) {
conn->ka_id++;
conn->ka_state = KA_NONE;
pptp_reset_timer();
}
break;
}
case PPTP_ECHO_RQST:
{
struct pptp_echo_rqst *packet =
(struct pptp_echo_rqst *) buffer;
struct pptp_echo_rply reply = {
PPTP_HEADER_CTRL(PPTP_ECHO_RPLY),
packet->identifier, /* skip hton32(ntoh32(id)) */
hton8(1), hton8(PPTP_GENERAL_ERROR_NONE), 0
};
logecho( PPTP_ECHO_RQST);
pptp_send_ctrl_packet(conn, &reply, sizeof(reply));
pptp_reset_timer();
break;
}
/* ----------- OUTGOING CALL MESSAGES ------------ */
case PPTP_OUT_CALL_RQST:
{
struct pptp_out_call_rqst *packet =
(struct pptp_out_call_rqst *)buffer;
struct pptp_out_call_rply reply = {
PPTP_HEADER_CTRL(PPTP_OUT_CALL_RPLY),
0 /* callid */, packet->call_id, 1, PPTP_GENERAL_ERROR_NONE, 0,
hton32(PPTP_CONNECT_SPEED),
hton16(PPTP_WINDOW), hton16(PPTP_DELAY), 0
};
log("Received Outgoing Call Request.");
/* XXX PAC: eventually this should make an outgoing call. XXX */
reply.result_code = hton8(7); /* outgoing calls verboten */
pptp_send_ctrl_packet(conn, &reply, sizeof(reply));
break;
}
case PPTP_OUT_CALL_RPLY:
{
struct pptp_out_call_rply *packet =
(struct pptp_out_call_rply *)buffer;
PPTP_CALL * call;
u_int16_t callid = ntoh16(packet->call_id_peer);
log("Received Outgoing Call Reply.");
if (!vector_search(conn->call, (int) callid, &call)) {
log("PPTP_OUT_CALL_RPLY received for non-existant call: "
"peer call ID (us) %d call ID (them) %d.",
callid, ntoh16(packet->call_id));
break;
}
if (call->call_type != PPTP_CALL_PNS) {
log("Ack! How did this call_type get here?"); /* XXX? */
break;
}
if (call->state.pns != PNS_WAIT_REPLY) {
warn("Unexpected(?) Outgoing Call Reply will be ignored.");
break;
}
/* check for errors */
if (packet->result_code != 1) {
/* An error. Log it verbosely. */
log("Our outgoing call request [callid %d] has not been "
"accepted.", (int) callid);
ctrlp_error(packet->result_code, packet->error_code,
packet->cause_code, pptp_out_call_reply_result,
MAX_OUT_CALL_REPLY_RESULT);
call->state.pns = PNS_IDLE;
if (call->callback != NULL)
call->callback(conn, call, CALL_OPEN_FAIL);
pptp_call_destroy(conn, call);
} else {
/* connection established */
call->state.pns = PNS_ESTABLISHED;
call->peer_call_id = ntoh16(packet->call_id);
call->speed = ntoh32(packet->speed);
pptp_reset_timer();
/* call pptp_set_link. unless the user specified a quirk
and this quirk has a set_link hook, this is a noop */
pptp_set_link(conn, call->peer_call_id);
if (call->callback != NULL)
call->callback(conn, call, CALL_OPEN_DONE);
log("Outgoing call established (call ID %u, peer's "
"call ID %u).\n", call->call_id, call->peer_call_id);
}
break;
}
/* ----------- INCOMING CALL MESSAGES ------------ */
/* XXX write me XXX */
/* ----------- CALL CONTROL MESSAGES ------------ */
case PPTP_CALL_CLEAR_RQST:
{
struct pptp_call_clear_rqst *packet =
(struct pptp_call_clear_rqst *)buffer;
struct pptp_call_clear_ntfy reply = {
PPTP_HEADER_CTRL(PPTP_CALL_CLEAR_NTFY), packet->call_id,
1, PPTP_GENERAL_ERROR_NONE, 0, 0, {0}
};
log("Received Call Clear Request.");
if (vector_contains(conn->call, ntoh16(packet->call_id))) {
PPTP_CALL * call;
vector_search(conn->call, ntoh16(packet->call_id), &call);
if (call->callback != NULL)
call->callback(conn, call, CALL_CLOSE_RQST);
pptp_send_ctrl_packet(conn, &reply, sizeof(reply));
pptp_call_destroy(conn, call);
log("Call closed (RQST) (call id %d)", (int) call->call_id);
}
break;
}
case PPTP_CALL_CLEAR_NTFY:
{
struct pptp_call_clear_ntfy *packet =
(struct pptp_call_clear_ntfy *)buffer;
log("Call disconnect notification received (call id %d)",
ntoh16(packet->call_id));
if (vector_contains(conn->call, ntoh16(packet->call_id))) {
PPTP_CALL * call;
ctrlp_error(packet->result_code, packet->error_code,
packet->cause_code, pptp_call_disc_ntfy,
MAX_CALL_DISC_NTFY);
vector_search(conn->call, ntoh16(packet->call_id), &call);
pptp_call_destroy(conn, call);
}
/* XXX we could log call stats here XXX */
/* XXX not all servers send this XXX */
break;
}
case PPTP_SET_LINK_INFO:
{
/* I HAVE NO CLUE WHAT TO DO IF send_accm IS NOT 0! */
/* this is really dealt with in the HDLC deencapsulation, anyway. */
struct pptp_set_link_info *packet =
(struct pptp_set_link_info *)buffer;
/* log it. */
log("PPTP_SET_LINK_INFO received from peer_callid %u",
(unsigned int) ntoh16(packet->call_id_peer));
log(" send_accm is %08lX, recv_accm is %08lX",
(unsigned long) ntoh32(packet->send_accm),
(unsigned long) ntoh32(packet->recv_accm));
if (!(ntoh32(packet->send_accm) == 0 &&
ntoh32(packet->recv_accm) == 0))
warn("Non-zero Async Control Character Maps are not supported!");
break;
}
default:
log("Unrecognized Packet %d received.",
(int) ntoh16(((struct pptp_header *)buffer)->ctrl_type));
/* goto pptp_conn_close; */
break;
}
return 0;
pptp_conn_close:
warn("pptp_conn_close(%d)", (int) close_reason);
pptp_conn_close(conn, close_reason);
return 0;
}
