Call is initiated by LCR:
If a call is received from LCR, a MESSAGE_NEWREF is received first.
+The ref_was_assigned ist set to 1.
A new chan_call instance is created. The call reference (ref) is given by
-MESSAGE_NEWREF. The state is CHAN_LCR_STATE_IN_PREPARE.
+the received MESSAGE_NEWREF. The state is CHAN_LCR_STATE_IN_PREPARE.
After receiving MESSAGE_SETUP from LCR, the ast_channel instance is created
using ast_channel_alloc(1). The setup information is given to asterisk.
The new Asterisk instance pointer (ast) is stored to chan_call structure.
If a call is requested from Asterisk, a new chan_call instance is created.
The new Asterisk instance pointer (ast) is stored to chan_call structure.
The current call ref is set to 0, the state is CHAN_LCR_STATE_OUT_PREPARE.
-If the call is received (lcr_call) A MESSASGE_NEWREF is sent to LCR requesting
+If the call is received (lcr_call) A MESSAGE_NEWREF is sent to LCR requesting
a new call reference (ref).
+The ref_was_assigned ist set to 1.
Further dialing information is queued.
After the new callref is received by special MESSAGE_NEWREF reply, new ref
is stored in the chan_call structure.
A MESSAGE_RELEASE is received with the call reference (ref) to be released.
The current ref is set to 0, to indicate released reference.
+The ref_was_assigned==1 shows that there is no other ref to be assigned.
The state changes to CHAN_LCR_STATE_RELEASE.
ast_queue_hangup() is called, if asterisk instance (ast) exists, if not,
the chan_call instance is destroyed.
a MESSAGE_RELEASE is sent to LCR and the chan_call instance is destroyed.
If the ref is 0 and the state is not CHAN_LCR_STATE_RELEASE, the new state is
set to CHAN_LCR_STATE_RELEASE.
+The ref_was_assigned==0 shows that a ref is still requested.
Later, if the MESSAGE_NEWREF reply is received, a MESSAGE_RELEASE is sent to
LCR and the chan_call instance is destroyed.
If the ref is 0 and the state is CHAN_LCR_STATE_RELEASE, see the proceedure
*/
struct chan_call *call_first;
-struct chan_call *find_call_ref(unsigned int ref)
-{
- struct chan_call *call = call_first;
-
- while(call)
- {
- if (call->ref == ref)
- break;
- call = call->next;
- }
- return(call);
-}
-
-#if 0
-struct chan_call *find_call_ast(struct ast_channel *ast)
-{
- struct chan_call *call = call_first;
-
- while(call)
- {
- if (call->ast == ast)
- break;
- call = call->next;
- }
- return(call);
-}
+/*
+ * find call by ref
+ * special case: 0: find new ref, that has not been assigned a ref yet
+ */
-struct chan_call *find_call_handle(unsigned int handle)
+struct chan_call *find_call_ref(unsigned int ref)
{
struct chan_call *call = call_first;
-
+ int assigned = (ref > 0);
+
while(call)
{
- if (call->bchannel_handle == handle)
+ if (call->ref == ref && call->ref_was_assigned == assigned)
break;
call = call->next;
}
return(call);
}
-#endif
void free_call(struct chan_call *call)
{
return(*callp);
}
-
unsigned short new_bridge_id(void)
{
struct chan_call *call;
CDEBUG(call, call->ast, "Option 'r' (re-buffer 160 bytes)");
call->rebuffer = 1;
break;
-#if 0
case 's':
if (opt[1] != '\0') {
CERROR(call, call->ast, "Option 's' (inband DTMF) expects no parameter.\n", opt);
}
CDEBUG(call, call->ast, "Option 's' (inband DTMF).\n");
call->inband_dtmf = 1;
-todo
break;
-#endif
case 'v':
if (opt[1] != 'r' && opt[1] != 't') {
CERROR(call, call->ast, "Option 'v' (volume) expects parameter.\n", opt);
/* check bridge */
if (!call) return;
if (!call->bridge_call) return;
- CDEBUG(call, NULL, "Sending message due briding.\n");
+ CDEBUG(call, NULL, "Sending message due bridging.\n");
send_message(message_type, call->bridge_call->ref, param);
}
}
/*
- * incoming setup acknowledge from LCR
+ * incoming release from LCR
*/
static void lcr_in_release(struct chan_call *call, int message_type, union parameter *param)
{
/* use bridge to forware message not supported by asterisk */
if (call->state == CHAN_LCR_STATE_CONNECT) {
- CDEBUG(call, call->ast, "Call is connected, briding.\n");
+ CDEBUG(call, call->ast, "Call is connected, bridging.\n");
bridge_message_if_bridged(call, message_type, param);
}
}
call->state = CHAN_LCR_STATE_IN_PREPARE;
/* set ref */
call->ref = ref;
+ call->ref_was_assigned = 1;
/* wait for setup (or release from asterisk) */
} else
{
}
/* store new ref */
call->ref = ref;
+ call->ref_was_assigned = 1;
/* send pending setup info */
if (call->state == CHAN_LCR_STATE_OUT_PREPARE)
send_setup_to_lcr(call);
int open_socket(void)
{
int ret;
- char *socket_name = SOCKET_NAME;
int conn;
struct sockaddr_un sock_address;
unsigned int on = 1;
/* set socket address and name */
memset(&sock_address, 0, sizeof(sock_address));
sock_address.sun_family = PF_UNIX;
- strcpy(sock_address.sun_path, socket_name);
+ sprintf(sock_address.sun_path, SOCKET_NAME, options.lock);
/* connect socket */
if ((conn = connect(lcr_sock, (struct sockaddr *)&sock_address, SUN_LEN(&sock_address))) < 0)
return 0;
}
+static void send_digit_to_chan(struct ast_channel * ast, char digit )
+{
+ static const char* dtmf_tones[] = {
+ "!941+1336/100,!0/100", /* 0 */
+ "!697+1209/100,!0/100", /* 1 */
+ "!697+1336/100,!0/100", /* 2 */
+ "!697+1477/100,!0/100", /* 3 */
+ "!770+1209/100,!0/100", /* 4 */
+ "!770+1336/100,!0/100", /* 5 */
+ "!770+1477/100,!0/100", /* 6 */
+ "!852+1209/100,!0/100", /* 7 */
+ "!852+1336/100,!0/100", /* 8 */
+ "!852+1477/100,!0/100", /* 9 */
+ "!697+1633/100,!0/100", /* A */
+ "!770+1633/100,!0/100", /* B */
+ "!852+1633/100,!0/100", /* C */
+ "!941+1633/100,!0/100", /* D */
+ "!941+1209/100,!0/100", /* * */
+ "!941+1477/100,!0/100" }; /* # */
+
+ if (digit >= '0' && digit <='9')
+ ast_playtones_start(ast,0,dtmf_tones[digit-'0'], 0);
+ else if (digit >= 'A' && digit <= 'D')
+ ast_playtones_start(ast,0,dtmf_tones[digit-'A'+10], 0);
+ else if (digit == '*')
+ ast_playtones_start(ast,0,dtmf_tones[14], 0);
+ else if (digit == '#')
+ ast_playtones_start(ast,0,dtmf_tones[15], 0);
+ else {
+ /* not handled */
+ ast_log(LOG_DEBUG, "Unable to handle DTMF tone "
+ "'%c' for '%s'\n", digit, ast->name);
+ }
+}
+
+
static int lcr_digit_begin(struct ast_channel *ast, char digit)
{
struct chan_call *call;
static int lcr_digit_end(struct ast_channel *ast, char digit, unsigned int duration)
{
- printf("DIGIT END %c\n", digit);
+ int inband_dtmf = 0;
+ struct chan_call *call;
+
+ ast_mutex_lock(&chan_lock);
+
+ call = ast->tech_pvt;
+
+ if (!call) {
+ CERROR(NULL, ast,
+ "Received digit from Asterisk, "
+ "but no call instance exists.\n");
+ ast_mutex_unlock(&chan_lock);
+ return -1;
+ }
+
+ CDEBUG(call, ast, "DIGIT END '%c' from Asterisk.\n", digit);
+
+ if (call->state == CHAN_LCR_STATE_CONNECT && call->inband_dtmf) {
+ inband_dtmf = 1;
+ }
+
+ ast_mutex_unlock(&chan_lock);
+
+ if (inband_dtmf) {
+ CDEBUG(call, ast, "-> sending '%c' inband.\n", digit);
+ send_digit_to_chan(ast, digit);
+ }
+
return (0);
}
/*start music onhold*/
ast_moh_start(ast,data,ast->musicclass);
+ call->on_hold = 1;
break;
case AST_CONTROL_UNHOLD:
CDEBUG(call, ast, "Received indicate AST_CONTROL_UNHOLD from Asterisk.\n");
/*stop moh*/
ast_moh_stop(ast);
+ call->on_hold = 0;
break;
-
+#ifdef AST_CONTROL_SRCUPDATE
+ case AST_CONTROL_SRCUPDATE:
+ CDEBUG(call, ast, "Received indicate AST_CONTROL_SRCUPDATE from Asterisk.\n");
+ res = -1;
+ break;
+#endif
default:
CERROR(call, ast, "Received indicate from Asterisk with unknown condition %d.\n", cond);
res = -1;
struct ast_frame *f;
int bridge_id;
- CDEBUG(NULL, NULL, "Received briding request from Asterisk.\n");
+ CDEBUG(NULL, NULL, "Received bridging request from Asterisk.\n");
carr[0] = ast1;
carr[1] = ast2;
/* join, if both call instances uses dsp */
if (!call1->nodsp && !call2->nodsp) {
- CDEBUG(NULL, NULL, "Both calls use DSP, briding via DSP.\n");
+ CDEBUG(NULL, NULL, "Both calls use DSP, bridging via DSP.\n");
/* get bridge id and join */
bridge_id = new_bridge_id();
bchannel_join(call2->bchannel, bridge_id);
} else
if (call1->nodsp && call2->nodsp)
- CDEBUG(NULL, NULL, "Both calls use no DSP, briding in channel driver.\n");
+ CDEBUG(NULL, NULL, "Both calls use no DSP, bridging in channel driver.\n");
else
- CDEBUG(NULL, NULL, "One call uses no DSP, briding in channel driver.\n");
+ CDEBUG(NULL, NULL, "One call uses no DSP, bridging in channel driver.\n");
call1->bridge_call = call2;
call2->bridge_call = call1;
CDEBUG(call2, ast2, "Bridge established before lcr_answer, so we call it ourself: Calling lcr_answer...\n");
lcr_answer(ast2);
}
+
+ /* sometimes SIP phones forget to send RETRIEVE before TRANSFER
+ so let's do it for them. Hmpf.
+ */
+
+ if (call1->on_hold) {
+ union parameter newparam;
+
+ memset(&newparam, 0, sizeof(union parameter));
+ newparam.notifyinfo.notify = INFO_NOTIFY_REMOTE_RETRIEVAL;
+ send_message(MESSAGE_NOTIFY, call1->ref, &newparam);
+
+ call1->on_hold = 0;
+ }
+
+ if (call2->on_hold) {
+ union parameter newparam;
+
+ memset(&newparam, 0, sizeof(union parameter));
+ newparam.notifyinfo.notify = INFO_NOTIFY_REMOTE_RETRIEVAL;
+ send_message(MESSAGE_NOTIFY, call2->ref, &newparam);
+
+ call2->on_hold = 0;
+ }
ast_mutex_unlock(&chan_lock);
}
- CDEBUG(NULL, NULL, "Releasing bride.\n");
+ CDEBUG(NULL, NULL, "Releasing bridge.\n");
/* split channels */
ast_mutex_lock(&chan_lock);
" c - Make crypted outgoing call, optarg is keyindex.\n"
" e - Perform echo cancelation on this channel.\n"
" Takes mISDN pipeline option as optarg.\n"
-// " s - Send Non Inband DTMF as inband.\n"
+ " s - Send Non Inband DTMF as inband.\n"
" vr - rxgain control\n"
" vt - txgain control\n"
" Volume changes at factor 2 ^ optarg.\n"