1 /*****************************************************************************\
3 ** Linux Call Router **
5 **---------------------------------------------------------------------------**
6 ** Copyright: Andreas Eversberg **
8 ** mISDN-port header file **
10 \*****************************************************************************/
12 #define FROMUP_BUFFER_SIZE 1024
13 #define FROMUP_BUFFER_MASK 1023
16 extern int mISDNdevice;
18 extern int mISDNsocket;
21 B_EVENT_USE, /* activate/export bchannel */
22 B_EVENT_EXPORTREQUEST, /* remote app requests bchannel */
23 B_EVENT_IMPORTREQUEST, /* remote app releases bchannel */
24 B_EVENT_ACTIVATED, /* DL_ESTABLISH received */
25 B_EVENT_DROP, /* deactivate/re-import bchannel */
26 B_EVENT_DEACTIVATED, /* DL_RELEASE received */
27 B_EVENT_EXPORTED, /* BCHANNEL_ASSIGN received */
28 B_EVENT_IMPORTED, /* BCHANNEL_REMOVE received */
29 B_EVENT_TIMEOUT, /* timeout for bchannel state */
32 /* mISDN port structure list */
35 struct mISDNport *next;
36 char name[64]; /* name of port, if available */
37 struct interface_port *ifport; /* link to interface_port */
38 // int iftype; /* IF_* */
39 // int multilink; /* if set, this port will not support callwaiting */
40 int portnum; /* port number 1..n */
41 int ptp; /* if ptp is set, we keep track of l2link */
42 int l1link; /* if l1 is available (only works with nt-mode) */
43 int l2link; /* if l2 is available (at PTP we take this serious) */
44 unsigned char l2mask[16]; /* 128 bits for each tei */
45 int l1hold; /* set, if layer 1 should be holt */
46 int l2hold; /* set, if layer 2 must be hold/checked */
47 time_t l2establish; /* time until establishing after link failure */
48 int use; /* counts the number of port that uses this port */
49 int ntmode; /* is TRUE if port is NT mode */
50 int tespecial; /* is TRUE if port uses special TE mode */
51 int pri; /* is TRUE if port is a primary rate interface */
52 int tones; /* TRUE if tones are sent outside connect state */
53 int earlyb; /* TRUE if tones are received outside connect state */
54 int b_num; /* number of bchannels */
55 int b_reserved; /* number of bchannels reserved or in use */
56 class PmISDN *b_port[128]; /* bchannel assigned to port object */
57 struct mqueue upqueue;
59 int b_mode[128]; /* B_MODE_* */
60 int b_state[128]; /* statemachine, 0 = IDLE */
61 double b_timer[128]; /* timer for state machine */
62 int b_remote_id[128]; /* the socket currently exported (0=none) */
63 unsigned int b_remote_ref[128]; /* the ref currently exported */
64 int locally; /* local causes are sent as local causes not remote */
65 int los, ais, rdi, slip_rx, slip_tx;
68 int gsm; /* this is the (only) GSM interface */
69 int lcr_sock; /* socket of loopback on LCR side */
71 extern mISDNport *mISDNport_first;
77 if a b-channel is in use, the b_port[channel] is linked to the port using it.
78 also each used b-channel counts b_inuse.
79 to assign a bchannel, that is not jet defined due to remote channel assignment,
80 the b_inuse is also increased to reserve channel
82 'use' is the number of port instances using this mISDNport. this counts also
83 calls with no bchannel (call waiting, call on hold).
88 /* mISDN none-object functions */
89 int mISDN_initialize(void);
90 void mISDN_deinitialize(void);
91 int mISDN_getportbyname(int sock, int cnt, char *portname);
92 struct mISDNport *mISDNport_open(int port, char *portname, int ptp, int force_nt, int te_special, int l1hold, int l2hold, struct interface *interface, int gsm);
93 void mISDNport_close_all(void);
94 void mISDNport_close(struct mISDNport *mISDNport);
95 void mISDN_port_reorder(void);
96 int mISDN_handler(void);
97 void enc_ie_cause_standalone(struct l3_msg *l3m, int location, int cause);
98 int stack2manager(struct mISDNport *mISDNport, unsigned int cmd, unsigned int pid, struct l3_msg *l3m);
99 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);
100 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);
101 void chan_trace_header(struct mISDNport *mISDNport, class PmISDN *port, const char *msgtext, int direction);
102 void l1l2l3_trace_header(struct mISDNport *mISDNport, class PmISDN *port, unsigned int prim, int direction);
103 void bchannel_event(struct mISDNport *mISDNport, int i, int event);
104 void message_bchannel_from_remote(class JoinRemote *joinremote, int type, unsigned int handle);
107 /* mISDN port classes */
108 class PmISDN : public Port
111 PmISDN(int type, struct mISDNport *mISDNport, char *portname, struct port_settings *settings, int channel, int exclusive, int mode);
113 void bchannel_receive(struct mISDNhead *hh, unsigned char *data, int len);
115 void transmit(unsigned char *buffer, int length);
116 int message_epoint(unsigned int epoint_id, int message, union parameter *param);
117 void message_mISDNsignal(unsigned int epoint_id, int message_id, union parameter *param);
118 void message_crypt(unsigned int epoint_id, int message_id, union parameter *param);
119 struct mISDNport *p_m_mISDNport; /* pointer to port */
120 int p_m_delay; /* use delay instead of dejitter */
121 int p_m_tx_gain, p_m_rx_gain; /* volume shift (0 = no change) */
122 char p_m_pipeline[256]; /* filter pipeline */
123 int p_m_echo, p_m_conf; /* remote echo, conference number */
124 int p_m_tone; /* current kernel space tone */
125 int p_m_rxoff; /* rx from driver is disabled */
126 // int p_m_nodata; /* all parties within a conf are isdn ports, so pure bridging is possible */
127 int p_m_txdata; /* get what we transmit */
128 int p_m_dtmf; /* dtmf decoding is enabled */
129 int p_m_joindata; /* the call requires data due to no briging capability */
131 int p_m_load; /* current data in dsp tx buffer */
132 unsigned int p_m_last_tv_sec; /* time stamp of last handler call, (to sync audio data */
133 unsigned int p_m_last_tv_msec;
134 // int p_m_fromup_buffer_readp; /* buffer for audio from remote endpoint */
135 // int p_m_fromup_buffer_writep;
136 // unsigned char p_m_fromup_buffer[FROMUP_BUFFER_SIZE];
137 void txfromup(unsigned char *data, int length);
139 int p_m_crypt; /* encryption is enabled */
140 int p_m_crypt_msg_loops; /* sending a message */
141 int p_m_crypt_msg_len;
142 unsigned char p_m_crypt_msg[1100];
143 int p_m_crypt_msg_current;
144 unsigned char p_m_crypt_key[128];
145 int p_m_crypt_key_len;
146 int p_m_crypt_listen;
147 int p_m_crypt_listen_state;
148 int p_m_crypt_listen_len;
149 unsigned char p_m_crypt_listen_msg[1100];
150 unsigned int p_m_crypt_listen_crc;
151 void cryptman_listen_bch(unsigned char *p, int l);
153 void set_tone(const char *dir, const char *name);
154 void set_echotest(int echotest);
156 int p_m_portnum; /* used port number (1...n) */
157 int p_m_b_index; /* index 0,1 0..29 */
158 int p_m_b_channel; /* number 1,2 1..15,17... */
159 int p_m_b_exclusive; /* if bchannel is exclusive */
160 int p_m_b_reserve; /* set if channel is reserved */
161 // long long p_m_jittercheck; /* time of audio data */
162 // long long p_m_jitterdropped; /* number of bytes dropped */
163 int p_m_b_mode; /* bchannel mode */
164 int p_m_delete; /* true if obj. must del. */
165 int p_m_hold; /* if port is on hold */
166 unsigned int p_m_timeout; /* timeout of timers */
167 time_t p_m_timer; /* start of timer */
168 unsigned int p_m_remote_ref; /* join to export bchannel to */
169 int p_m_remote_id; /* sock to export bchannel to */
171 int seize_bchannel(int channel, int exclusive); /* requests / reserves / links bchannels, but does not open it! */
172 void drop_bchannel(void);
175 extern unsigned char mISDN_rand[256]; /* noisy randomizer */