int l2hold; /* set, if layer 2 must be hold/checked */
time_t l2establish; /* time until establishing after link failure */
int use; /* counts the number of port that uses this port */
- int ntmode; /* is TRUE if port is nt mode */
+ int ntmode; /* is TRUE if port is NT mode */
+ int tespecial; /* is TRUE if port uses special TE mode */
int pri; /* is TRUE if port is a primary rate interface */
int tones; /* TRUE if tones are sent outside connect state */
int earlyb; /* TRUE if tones are received outside connect state */
class PmISDN *b_port[128]; /* bchannel assigned to port object */
struct mqueue upqueue;
int b_socket[128];
+ int b_mode[128]; /* B_MODE_* */
int b_state[128]; /* statemachine, 0 = IDLE */
double b_timer[128]; /* timer for state machine */
int b_remote_id[128]; /* the socket currently exported (0=none) */
/* mISDN none-object functions */
int mISDN_initialize(void);
void mISDN_deinitialize(void);
-void mISDN_port_info(void);
-struct mISDNport *mISDNport_open(int port, int ptp, int force_nt, int l2hold, struct interface *interface);
+struct mISDNport *mISDNport_open(int port, char *portname, int ptp, int force_nt, int te_special, int l2hold, struct interface *interface);
void mISDNport_close_all(void);
void mISDNport_close(struct mISDNport *mISDNport);
void mISDN_port_reorder(void);
int mISDN_handler(void);
void enc_ie_cause_standalone(struct l3_msg *l3m, int location, int cause);
int stack2manager(struct mISDNport *mISDNport, unsigned int cmd, unsigned int pid, struct l3_msg *l3m);
-void ph_control(struct mISDNport *mISDNport, class PmISDN *isdnport, unsigned int handle, unsigned int c1, unsigned int c2, char *trace_name, int trace_value);
-void ph_control_block(struct mISDNport *mISDNport, unsigned int handle, unsigned int c1, void *c2, int c2_len, char *trace_name, int trace_value);
-void chan_trace_header(struct mISDNport *mISDNport, class PmISDN *port, char *msgtext, int direction);
+void ph_control(struct mISDNport *mISDNport, class PmISDN *isdnport, unsigned int handle, unsigned int c1, unsigned int c2, const char *trace_name, int trace_value);
+void ph_control_block(struct mISDNport *mISDNport, unsigned int handle, unsigned int c1, void *c2, int c2_len, const char *trace_name, int trace_value);
+void chan_trace_header(struct mISDNport *mISDNport, class PmISDN *port, const char *msgtext, int direction);
void l1l2l3_trace_header(struct mISDNport *mISDNport, class PmISDN *port, unsigned int prim, int direction);
void bchannel_event(struct mISDNport *mISDNport, int i, int event);
void message_bchannel_from_remote(class JoinRemote *joinremote, int type, unsigned int handle);
class PmISDN : public Port
{
public:
- PmISDN(int type, struct mISDNport *mISDNport, char *portname, struct port_settings *settings, int channel, int exclusive);
+ PmISDN(int type, struct mISDNport *mISDNport, char *portname, struct port_settings *settings, int channel, int exclusive, int mode);
~PmISDN();
void bchannel_receive(struct mISDNhead *hh, unsigned char *data, int len);
int handler(void);
unsigned int p_m_crypt_listen_crc;
void cryptman_listen_bch(unsigned char *p, int l);
- void set_tone(char *dir, char *name);
+ void set_tone(const char *dir, const char *name);
void set_echotest(int echotest);
int p_m_portnum; /* used port number (1...n) */
int p_m_b_reserve; /* set if channel is reserved */
// long long p_m_jittercheck; /* time of audio data */
// long long p_m_jitterdropped; /* number of bytes dropped */
+ int p_m_b_mode; /* bchannel mode */
int p_m_delete; /* true if obj. must del. */
int p_m_hold; /* if port is on hold */
unsigned int p_m_timeout; /* timeout of timers */
time_t p_m_timer; /* start of timer */
unsigned int p_m_remote_ref; /* join to export bchannel to */
- unsigned int p_m_remote_id; /* sock to export bchannel to */
+ int p_m_remote_id; /* sock to export bchannel to */
int seize_bchannel(int channel, int exclusive); /* requests / reserves / links bchannels, but does not open it! */
void drop_bchannel(void);