154 lines
6.6 KiB
C
154 lines
6.6 KiB
C
#include "../common/sender.h"
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#include "../common/compandor.h"
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#include "../common/dtmf.h"
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#include "../common/call.h"
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#include "dms.h"
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#include "sms.h"
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enum dsp_mode {
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DSP_MODE_DIALTONE, /* stream dial tone to mobile phone */
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DSP_MODE_AUDIO, /* stream audio */
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DSP_MODE_SILENCE, /* stream nothing */
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DSP_MODE_FRAME, /* send frames */
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DSP_MODE_DTMF, /* send DTMF tones */
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};
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enum nmt_chan_type {
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CHAN_TYPE_CC, /* calling channel */
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CHAN_TYPE_TC, /* traffic channel */
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CHAN_TYPE_CC_TC, /* combined CC + TC */
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CHAN_TYPE_TEST, /* test channel */
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};
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enum nmt_state {
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STATE_NULL, /* power off state */
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STATE_IDLE, /* channel is not in use */
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STATE_ROAMING_IDENT, /* seizure received, waiting for identity */
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STATE_ROAMING_CONFIRM, /* identity received, sending confirm */
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STATE_MO_IDENT, /* seizure of mobile originated call, waiting for identity */
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STATE_MO_CONFIRM, /* identity received, sending confirm */
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STATE_MO_DIALING, /* receiving digits from phone */
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STATE_MO_COMPLETE, /* all digits received, completing call */
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STATE_MT_PAGING, /* paging mobile phone */
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STATE_MT_CHANNEL, /* assigning traffic channel */
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STATE_MT_IDENT, /* waiting for identity */
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STATE_MT_AUTOANSWER, /* sending autoanswer, waiting for reply */
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STATE_MT_RINGING, /* mobile phone is ringing, waiting for answer */
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STATE_MT_COMPLETE, /* mobile phone has answered, completing call */
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STATE_ACTIVE, /* during active call */
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STATE_MO_RELEASE, /* acknowlegde release from mobile phone */
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STATE_MT_RELEASE, /* sending release toward mobile phone */
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};
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enum nmt_active_state {
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ACTIVE_STATE_VOICE, /* normal conversation */
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ACTIVE_STATE_MFT_IN, /* ack MFT converter in */
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ACTIVE_STATE_MFT, /* receive digits in MFT mode */
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ACTIVE_STATE_MFT_OUT, /* ack MFT converter out */
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};
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enum nmt_direction {
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MTX_TO_MS,
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MTX_TO_BS,
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MTX_TO_XX,
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BS_TO_MTX,
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MS_TO_MTX,
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XX_TO_MTX,
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};
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typedef struct nmt_sysinfo {
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enum nmt_chan_type chan_type; /* channel type */
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int ms_power; /* ms power level 3 = full */
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uint8_t traffic_area; /* two digits traffic area, encoded as YY */
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uint8_t area_no; /* Area no. 1..4, 0 = no Area no. */
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} nmt_sysinfo_t;
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const char *nmt_dir_name(enum nmt_direction dir);
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typedef struct nmt {
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sender_t sender;
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nmt_sysinfo_t sysinfo;
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compandor_t cstate;
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dtmf_t dtmf;
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struct transaction *trans; /* pointer to transaction, if bound to channel */
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/* sender's states */
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enum nmt_state state;
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int wait_autoanswer; /* wait for frame 15 before we can send autoanswer */
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enum nmt_active_state active_state;
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struct timer timer;
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int rx_frame_count; /* receive frame counter */
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int tx_frame_count; /* transmit frame counter */
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int tx_callerid_count; /* counter for caller ID repetition */
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char dialing[33]; /* dialed digits */
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int mft_num; /* counter for digit for MFT */
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/* features */
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int compandor; /* if compandor shall be used */
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int supervisory; /* if set, use supervisory signal 1..4 */
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int send_callerid; /* if set, send caller ID while ringing the phone */
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/* dsp states */
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enum dsp_mode dsp_mode; /* current mode: audio, durable tone 0 or 1, paging */
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int samples_per_bit; /* number of samples for one bit (1200 Baud) */
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int super_samples; /* number of samples in buffer for supervisory detection */
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int fsk_coeff[2]; /* coefficient k = 2*cos(2*PI*f/samplerate), k << 15 */
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int super_coeff[5]; /* coefficient for supervisory signal */
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int16_t *fsk_sine[2][2]; /* 4 pointers to 4 precalc. sine curves */
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int fsk_polarity; /* current polarity state of bit */
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int samples_per_chunk; /* how many samples lasts one chunk */
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int16_t *fsk_filter_spl; /* array with samples_per_chunk */
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int fsk_filter_pos; /* current sample position in filter_spl */
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int fsk_filter_step; /* number of samples for each analyzation */
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int fsk_filter_bit; /* last bit, so we detect a bit change */
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int fsk_filter_sample; /* count until it is time to sample bit */
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uint16_t fsk_filter_sync; /* shift register to detect sync */
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int fsk_filter_in_sync; /* if we are in sync and receive bits */
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int fsk_filter_mute; /* mute count down after sync */
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char fsk_filter_frame[141]; /* receive frame (one extra byte to terminate string) */
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int fsk_filter_count; /* next bit to receive */
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double fsk_filter_level[256]; /* level infos */
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double fsk_filter_quality[256];/* quality infos */
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int16_t *super_filter_spl; /* array with sample buffer for supervisory detection */
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int super_filter_pos; /* current sample position in filter_spl */
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double super_phaseshift256[4]; /* how much the phase of sine wave changes per sample */
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double super_phase256; /* current phase */
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double dial_phaseshift256; /* how much the phase of sine wave changes per sample */
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double dial_phase256; /* current phase */
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int frame; /* set, if there is a valid frame */
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int16_t *frame_spl; /* 166 * fsk_bit_length */
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int frame_pos; /* current sample position in frame_spl */
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uint64_t rx_sample_count; /* sample counter */
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uint64_t rx_sample_count_current;/* sample counter of current frame */
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uint64_t rx_sample_count_last; /* sample counter of last frame */
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int super_detected; /* current detection state flag */
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int super_detect_count; /* current number of consecutive detections/losses */
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/* DMS/SMS states */
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dms_t dms; /* DMS states */
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int dms_call; /* indicates that this call is a DMS call */
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sms_t sms; /* SMS states */
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char smsc_number[33]; /* digits to match SMSC */
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struct timer sms_timer;
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} nmt_t;
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void nmt_channel_list(void);
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int nmt_channel_by_short_name(const char *short_name);
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const char *chan_type_short_name(enum nmt_chan_type chan_type);
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const char *chan_type_long_name(enum nmt_chan_type chan_type);
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double nmt_channel2freq(int channel, int uplink);
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void nmt_country_list(void);
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uint8_t nmt_country_by_short_name(const char *short_name);
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int nmt_create(int channel, enum nmt_chan_type chan_type, const char *sounddev, int samplerate, int cross_channels, double rx_gain, int pre_emphasis, int de_emphasis, const char *write_rx_wave, const char *write_tx_wave, const char *read_rx_wave, uint8_t ms_power, uint8_t traffic_area, uint8_t area_no, int compandor, int supervisory, const char *smsc_number, int send_callerid, int loopback);
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void nmt_check_channels(void);
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void nmt_destroy(sender_t *sender);
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void nmt_go_idle(nmt_t *nmt);
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void nmt_receive_frame(nmt_t *nmt, const char *bits, double quality, double level, double frames_elapsed);
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const char *nmt_get_frame(nmt_t *nmt);
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void nmt_rx_super(nmt_t *nmt, int tone, double quality);
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void timeout_mt_paging(struct transaction *trans);
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void deliver_sms(const char *sms);
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int submit_sms(const char *sms);
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