FreeCalypso > hg > fc-tourmaline
view src/g23m-gsm/cc/cc.h @ 267:10b3a6876273
fc-target.h preprocessor symbols: introduce CONFIG_TARGET_LEO_RFFE
Out of our currently existing supported targets, Leonardo and Tango
use TI's classic Leonardo RFFE wiring. However, we would like to
use the same quadband RFFE with the same classic wiring on our
FreeCalypso Libre Dumbphone handset, and also on the planned
development board that will serve as a stepping stone toward that
goal. Therefore, we introduce the new CONFIG_TARGET_LEO_RFFE
preprocessor symbol, and conditionalize on this symbol in tpudrv12.h,
instead of a growing || of different targets.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Wed, 09 Jun 2021 07:26:51 +0000 |
parents | fa8dc04885d8 |
children |
line wrap: on
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : Definitions for the Protocol Stack Entity Call Control. +----------------------------------------------------------------------------- */ #ifndef CC_H #define CC_H #ifdef TI_PS_HCOMM_CHANGE #include "cl_hComm_handle.h" #endif #ifdef TI_GSP_STR2IND_S2I_STRING typedef unsigned int T_S2I_STRING; #else typedef char * T_S2I_STRING; #define S2I_STRING(x) (x) #endif #ifdef TI_PS_OP_VSI_NO_CALL_ID #define TIMER_START(C,I,T) vsi_t_start_nc(I,T) #define TIMER_PSTART(C,I,T,R) vsi_t_pstart_nc(I,T,R) #define TIMER_STOP(C,I) vsi_t_stop_nc(I) #define TIMER_STATUS(C,I,T) vsi_t_status_nc(I,T) #define SUSPEND_SELF(C,T) vsi_t_sleep_nc(T) #define SYSTEM_TIME(C,T) vsi_t_time_nc(T) #else /* TI_PS_OP_VSI_NO_CALL_ID */ #define TIMER_START(C,I,T) vsi_t_start(C,I,T) #define TIMER_PSTART(C,I,T,R) vsi_t_pstart(C,I,T,R) #define TIMER_STOP(C,I) vsi_t_stop(C,I) #define TIMER_STATUS(C,I,T) vsi_t_status(C,I,T) #define SUSPEND_SELF(C,T) vsi_t_sleep(C,T) #define SYSTEM_TIME(C,T) vsi_t_time(C,T) #endif /* TI_PS_OP_VSI_NO_CALL_ID */ #ifdef MNCC_TI_BERLIN /* The code is compiled for TI Berlin, some differences (for now) */ #define TI_BERLIN /* Texas Instruments Berlin wants to compile for GSM always */ #define TI_GSM /* Define TI_CAUSE_U16 for TI Berlin U16 bitmap cause concept */ #define TI_CAUSE_U16 /* Make a compatible definition for "no cause present" */ #define CAUSE_CC_NO_ERROR MNCC_CAUSE_NO_MS_CAUSE /* Protocoldiscriminator CC */ #define M_MM_PD_CC 3 /* Originating entity for MMCM */ #define NAS_ORG_ENTITY_CC MMCM_ORG_ENTITY_CC /* * TI Berlin has no "NAS_" defines and typedef, map what's needed to compile */ #define NAS_CH_SDCCH MMCM_CH_SDCCH #define NAS_CH_TCH_F MMCM_CH_TCH_F #define NAS_CH_TCH_H MMCM_CH_TCH_H #define NAS_CHM_SIG_ONLY MMCM_CHM_SIG_ONLY #define NAS_CHM_SPEECH MMCM_CHM_SPEECH #define NAS_CHM_SPEECH_V2 MMCM_CHM_SPEECH_V2 #define NAS_CHM_SPEECH_V3 MMCM_CHM_SPEECH_V3 #define NAS_CHM_DATA_9_6 MMCM_CHM_DATA_9_6 #define NAS_CHM_DATA_4_8 MMCM_CHM_DATA_4_8 #define NAS_CHM_DATA_2_4 MMCM_CHM_DATA_2_4 #define NAS_CHM_DATA_14_4 MMCM_CHM_DATA_14_4 typedef T_MNCC_fac_inf T_NAS_fac_inf; #else /* TI DK */ #define IS_CAUSE_INVALID(cause) (cause EQ CAUSE_CC_NO_ERROR) #endif /* else, #ifdef MNCC_TI_BERLIN */ /* * Some macros to give the optimize the chance to optimize code away, * making it possible to save some #ifdefs for GSM / UMTS only configurations. */ #ifdef TI_DUAL_MODE /* In dual mode we have to evaluate the RAT at runtime */ #define IS_RAT_UMTS_FDD() (cc_current_rat EQ PS_RAT_UMTS_FDD) #define IS_RAT_GSM() (cc_current_rat EQ PS_RAT_GSM) #else #ifdef TI_GSM /* GSM/GPRS only phone, RAT is always GSM/GPRS */ #define IS_RAT_UMTS_FDD() FALSE #define IS_RAT_GSM() TRUE #else /* UMTS only phone, RAT is always UMTS */ #define IS_RAT_UMTS_FDD() TRUE #define IS_RAT_GSM() FALSE #endif #endif /* #ifdef TI_DUAL_MODE */ /* * Definition whether bearer caps shall be traced */ #ifndef NTRACE #define TRACE_BCAP #endif /* * Definition whether a shared CCD buffer shall be used */ #define SHARED_CCD_BUF /*==== CONSTANTS ==================================================*/ /* * Macros */ #ifdef FRAME_OFFSET_ZERO #define GET_PD(s,p) p = s.buf[3] & 0x0F #define GET_TI(s,t) t = (s.buf[3] & 0xF0)>>4 #define SET_PD(s,p) s.buf[3] = (s.buf[3] & 0xF0) + p #define SET_TI(s,t) s.buf[3] = (s.buf[3] & 0x0F) + (t<<4) #else #define GET_PD(s,p) ccd_decodeByte(s.buf,(USHORT)(s.o_buf+4),4,&p) #define GET_TI(s,t) ccd_decodeByte(s.buf,s.o_buf,4,&t) #define GET_TI_EXT(s,t) ccd_decodeByte(s.buf,(USHORT)(s.o_buf+8),8,&t) #define SET_PD(s,p) ccd_codeByte(s.buf,(USHORT)(s.o_buf-4),4,p) #define SET_TI(s,t) ccd_codeByte(s.buf,(USHORT)(s.o_buf-8),4,t) #endif #define SET_DTMF_MOD( key, mode ) (((key) & 0x7F) | ((mode) << 7)) #define GET_DTMF_MOD( key ) (((key) & 0x80) >> 7) /* * The assert() macro as defined by the frame stops the task, * not only in simulation but also on the target. For the * simulation this is a desired behaviour, for the target it is not. */ #ifndef WIN32 #undef assert #define assert(x) if (!(x)) { TRACE_ERROR ("Assertion failed"); } #endif /* * Bitoffset for encoding/decoding */ #define CC_ENCODE_OFFSET L3_CODING_OFFSET #define ENCODE_OFFSET CC_ENCODE_OFFSET /* macro used by mem alloc macros */ /* * Dynamic Configuration Numbers */ /* Not present currently for entity CC */ #ifdef WIN32 #define ID_STD 7 #endif/* WIN32 */ /* * Timer indices, configuration parameters */ #define T303 0 #define T305 1 #define T308 2 #define T310 3 #define T313 4 #define T323 5 #define T332 6 #define T335 7 #define T336 8 #define T337 9 #define NUM_OF_CC_TIMERS MAX_CC_TIMER /* * Information Element Identifier */ #define PROGRESS_IEI 0x1E #define REPEAT_IEI 0x0D #define CONNECTED_NUMBER_IEI 0x4C #define CONNECTED_SUBADDR_IEI 0x4D #define CAUSE_IEI 0x08 #define NOTIFICATION_IEI 0x00 /* ???? */ #define SIGNAL_IEI 0x34 #define CALLING_PARTY_BCD_IEI 0x5C #define CALLING_PARTY_SUB_IEI 0x5D #define CALLED_PARTY_BCD_IEI 0x5E #define CALLED_PARTY_SUB_IEI 0x6D #define BEARER_CAP_IEI 0x04 /* * Call Type */ #define CALL_TYPE_MTC 1 #define CALL_TYPE_MOC 0 /* * DTMF States */ #define DTMF_IDLE 0 #define DTMF_SEND_REQUEST 1 #define DTMF_STOP_REQUEST 2 #define DTMF_SEND_ACKNOWLEDGE 3 /* * DTMF mode */ #define DTMF_AUTO 0 #define DTMF_MAN 1 /* * Compatibility Check Result Codes */ #define OKAY 0 #define NEGOTIATION 1 #define ERROR 2 #define BAD_SUBADDRESS 3 /* * Intermediate States */ #define CS_101 0xd #define CS_261 0xe /* * Maximum Length of SDU */ #define LEN_U_SETUP (128*8) #define LEN_U_RELEASE_COMPLETE ( 34*8) #define LEN_U_RELEASE ( 34*8) #define LEN_U_DISCONNECT ( 33*8) #define LEN_U_MODIFY_REJ ( 47*8) #define LEN_U_CONNECT ( 2*8) #define LEN_U_ALERT ( 2*8) #define LEN_U_USER_USER ( 5*8) #define LEN_U_FACILITY ( 5*8) /* * Max number of speech codecs for bearer capabilities */ #define MAX_SPEECH_CODECS 5 /* * Define the valid flag for the extended transaction identifier */ #define EXTENDED_TI_VALID 0x80 /*==== TYPES ======================================================*/ typedef struct { UBYTE t_mode; ULONG t_val; } T_TIMER_CONFIG; typedef struct { UBYTE state; UBYTE mode; UBYTE key; /* Last key which was sent */ UBYTE read; UBYTE write; UBYTE buf[DTMF_BUF_SIZE]; } T_DTMF; typedef struct { UBYTE serv1; UBYTE serv2; UBYTE ri; T_M_CC_bearer_cap bc1; T_M_CC_bearer_cap bc2; T_MNCC_bcpara bcpara1; T_MNCC_bcpara bcpara2; UBYTE neg_serv1; UBYTE neg_serv2; UBYTE neg_ri; T_M_CC_bearer_cap neg_bc1; T_M_CC_bearer_cap neg_bc2; T_MNCC_bcpara neg_bcpara1; T_MNCC_bcpara neg_bcpara2; UBYTE active_service; UBYTE mt; UBYTE ti; /* Transaction Identifier */ UBYTE ti_ext; /* extension octet of ti, if any */ UBYTE ti_rec; BOOL ti_ext_pres; /* presence of extension octet of ti */ UBYTE index_ti; UBYTE error; UBYTE error_count; UBYTE error_inf [MAX_ERROR_TAGS]; UBYTE channel_type; UBYTE channel_mode; UBYTE progress_desc[MAX_CC_CALLS]; UBYTE new_itc; UBYTE old_itc; T_M_CC_calling_subaddr my_party_subaddr; BOOL negotiation; UBYTE timer [MAX_CC_TIMER]; UBYTE stored_ti_values [MAX_CC_CALLS]; UBYTE call_type [MAX_CC_CALLS]; // PATCH LE 10.04.00 // new variables to check disconnect collision UBYTE disc_coll [MAX_CC_CALLS]; // END PATCH LE 10.04.00 UBYTE t308_counter [MAX_CC_CALLS]; T_DTMF dtmf [MAX_CC_CALLS]; UBYTE state [MAX_CC_CALLS]; UBYTE hold_state [MAX_CC_CALLS]; UBYTE mpty_state [MAX_CC_CALLS]; /* stores the cause used by the MS (not by the network) */ USHORT cc_cause [MAX_CC_CALLS]; #ifdef OPTION_REF T_PRIM * stored_prim [MAX_STORED_PRIM]; #else T_PRIM stored_prim [MAX_STORED_PRIM]; #endif UBYTE stored_prim_write; UBYTE stored_prim_read; UBYTE stored_prim_in; UBYTE stored_prim_out; EF_MSCAP mscap; // EF_MSSUP mssup; T_M_CC_call_ctrl_cap call_ctrl_cap; /* The pointer to the readily built uplink SETUP or EC SETUP message */ T_MMCM_DATA_REQ * stored_setup; T_MNCC_bcpara sns_bcpara; UBYTE sns_mode; UBYTE ctm_ena; /* Connection element to be used in a MTC, set by at+cbst */ UBYTE conn_elem; /* Pointer to stored MMCC_DATA_REQ which contains the CCBS SETUP message */ T_MMCM_DATA_REQ * stored_ccbs_setup; /* Establishment cause */ USHORT estcs; /* Number of retries to establish a MO call */ UBYTE setup_attempts; /* Transaction identifier for setup reattempt, NOT_PRESENT_8BIT if none */ UBYTE setup_reattempt_ti; /* Buffer for trace outputs, it doesn't save you anything if this * buffer is kept on the stack as stack is a scarce resource */ #ifdef TRACE_BCAP char string_buf[80]; #endif /* #ifdef TRACE_BCAP */ } T_CC_DATA; /*==== EXPORT =====================================================*/ /* * Prototypes Formatter */ EXTERN void for_init (void); EXTERN void for_mmcm_est_ind (T_MMCM_ESTABLISH_IND * mmcm_establish_ind); EXTERN void for_mmcm_data_ind (T_MMCM_DATA_IND * mmcm_data_ind ); EXTERN void for_decode (T_PRIM * prim, BOOL est_flag); EXTERN void for_d_alert (void); EXTERN void for_d_call_proceed (void); EXTERN void for_d_connect (void); EXTERN void for_d_facility (void); EXTERN void for_d_disconnect (void); EXTERN void for_b_modify (void); EXTERN void for_b_modify_comp (void); EXTERN void for_b_modify_rej (void); EXTERN void for_b_notify (void); EXTERN void for_d_progress (void); EXTERN void for_d_release (void); EXTERN void for_d_release_comp (void); EXTERN void for_d_cc_establishment (void); EXTERN void for_d_recall (void); EXTERN void for_d_setup (void); EXTERN void for_d_start_dtmf_ack (void); EXTERN void for_d_start_dtmf_rej (void); EXTERN void for_b_status (void); EXTERN void for_d_hold_rej (void); EXTERN void for_d_retrieve_rej (void); EXTERN void for_b_congest_ctrl (void); EXTERN void for_b_user_information (void); EXTERN BOOL cc_check_critical_error (UBYTE ccd_err); EXTERN void for_mmcm_sync_ind (T_MMCM_SYNC_IND * mmcm_sync_ind ); EXTERN void for_mmcm_est_cnf (T_MMCM_ESTABLISH_CNF * mmcm_establish_cnf ); EXTERN void for_mmcm_rel_ind (T_MMCM_RELEASE_IND * mmcm_release_ind ); EXTERN void for_mmcm_err_ind (T_MMCM_ERROR_IND * mmcm_error_ind ); EXTERN void for_mmcm_reest_cnf (T_MMCM_REESTABLISH_CNF* mmcm_reestablish_cnf); EXTERN void for_mmcm_prompt_ind (T_MMCM_PROMPT_IND * mmcm_prompt_ind); EXTERN void for_est_req (T_MMCM_ESTABLISH_REQ * mmcm_establish_req ); EXTERN void for_rel_req (void); EXTERN void for_reest_req (void); EXTERN void for_start_cc (T_U_START_CC * start_cc); EXTERN void for_cc_est_confirm (T_U_CC_EST_CONF * est_cnf); EXTERN void for_setup (T_U_SETUP * setup); EXTERN void for_emergency_setup (T_U_EMERGE_SETUP * emerg_setup); EXTERN void for_status (T_B_STATUS * status); EXTERN void for_release_complete (T_U_RELEASE_COMP * rel_com); EXTERN void for_disconnect (T_U_DISCONNECT * disconnect); EXTERN void for_modify_reject (T_B_MODIFY_REJ * modify_rej); EXTERN void for_modify_complete (T_B_MODIFY_COMP * mod_com); EXTERN void for_start_dtmf (T_U_START_DTMF * start_dtmf); EXTERN void for_stop_dtmf (void); EXTERN void for_call_confirm (T_U_CALL_CONF * call_confirm); EXTERN void for_release (T_U_RELEASE * release); EXTERN void for_connect_ack (T_B_CONNECT_ACK *b_connect_ack); EXTERN void for_retrieve (void); EXTERN void for_hold (void); EXTERN void for_user_information (T_B_USER_INFO * user_info); EXTERN void for_congestion_control (T_B_CONGEST_CTRL * cong); EXTERN void for_modify (T_B_MODIFY * modify); EXTERN void for_connect (T_U_CONNECT * connect); EXTERN void for_alert (T_U_ALERT * alert); EXTERN void for_facility (T_U_FACILITY * facility); EXTERN void for_pd (T_MMCM_DATA_REQ * mmcm_data_req); /* * Prototypes Formatter Functions */ EXTERN BOOL for_check_called_party_bcd (UBYTE ton, UBYTE npi); EXTERN BOOL for_check_called_party_sub (T_M_CC_called_subaddr * called_subaddr); EXTERN BOOL for_check_calling_party_bcd (T_M_CC_calling_num * calling_num); EXTERN BOOL for_check_calling_party_sub (T_M_CC_calling_subaddr * calling_subaddr); EXTERN void for_check_call_state (T_M_CC_call_state * call_state); EXTERN BOOL for_check_cc_cause (T_M_CC_cc_cause * cc_cause); EXTERN BOOL for_check_notification (T_M_CC_notific * notify); EXTERN BOOL for_check_progress_indicator (T_M_CC_progress * progress); EXTERN BOOL for_check_repeat_indicator (UBYTE repeat); EXTERN BOOL for_check_signal (UBYTE signal); EXTERN BOOL cc_check_critical_error (UBYTE ccd_err); /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ #ifdef OPTION_MULTITHREAD #define for_set_conditional_error _ENTITY_PREFIXED(for_set_conditional_error) #ifdef REL99 #define for_set_content_error _ENTITY_PREFIXED(for_set_content_error) #endif #define for_set_mandatory_error _ENTITY_PREFIXED(for_set_mandatory_error) #define for_set_optional_error _ENTITY_PREFIXED(for_set_optional_error) #endif EXTERN void for_set_conditional_error (UBYTE iei); EXTERN void for_set_mandatory_error (UBYTE iei); EXTERN void for_set_optional_error (UBYTE iei); /* * Prototypes Call Control (Establishment) */ EXTERN void cc_init (void); EXTERN void cc_init_data (void); EXTERN void cc_mncc_configure_req (T_MNCC_CONFIGURE_REQ * mncc_configure_req); EXTERN void cc_mncc_setup_req (T_MNCC_SETUP_REQ * mncc_setup_req ); EXTERN void cc_mncc_prompt_res (T_MNCC_PROMPT_RES * prompt); EXTERN void cc_mncc_prompt_rej (T_MNCC_PROMPT_REJ * prompt); EXTERN void cc_mncc_alert_req (T_MNCC_ALERT_REQ * mncc_alert_req ); EXTERN void cc_mncc_setup_res (T_MNCC_SETUP_RES * mncc_setup_res ); EXTERN void cc_alert (T_D_ALERT * alert); EXTERN void cc_call_proceeding (T_D_CALL_PROCEED * proceed); EXTERN void cc_connect (T_D_CONNECT * connect); EXTERN void cc_connect_ack (void); EXTERN void cc_progress (T_D_PROGRESS * progress); EXTERN void cc_setup (T_D_SETUP * setup); EXTERN void cc_sync_ind (T_MMCM_SYNC_IND *mmcc_sync_ind); EXTERN void cc_est_cnf (void); EXTERN void cc_reest_cnf (void); EXTERN void cc_cc_establishment (T_U_SETUP * setup); EXTERN void cc_recall (T_D_RECALL * recall); #ifdef SIM_TOOLKIT EXTERN void cc_mncc_bearer_cap_req (T_MNCC_BEARER_CAP_REQ * bc_req); #endif /* SIM_TOOLKIT */ /* * Prototypes Call Control (Active Phase) */ EXTERN void cc_mncc_facility_req (T_MNCC_FACILITY_REQ * mncc_facility_req ); EXTERN void cc_mncc_start_dtmf_req (T_MNCC_START_DTMF_REQ * mncc_start_dtmf_req); EXTERN void cc_reset_dtmf (void); EXTERN void cc_mncc_modify_req (T_MNCC_MODIFY_REQ * mncc_modify_req ); EXTERN void cc_mncc_user_req (T_MNCC_USER_REQ * mncc_user_req ); EXTERN void cc_mncc_hold_req (T_MNCC_HOLD_REQ * mncc_hold_req ); EXTERN void cc_mncc_retrieve_req (T_MNCC_RETRIEVE_REQ * mncc_retrieve_req ); EXTERN void cc_mncc_sync_req (T_MNCC_SYNC_REQ * mncc_sync_req ); EXTERN void cc_mncc_status_res (T_MNCC_STATUS_RES * mncc_status_res ); EXTERN void cc_facility (T_D_FACILITY * facility); EXTERN void cc_start_dtmf_ack (T_D_START_DTMF_ACK * start_dtmf_ack); EXTERN void cc_start_dtmf_rej (T_D_START_DTMF_REJ * start_dtmf_rej); EXTERN void cc_stop_dtmf (void); EXTERN void cc_stop_dtmf_ack (void); EXTERN void cc_hold_ack (void); EXTERN void cc_hold_rej (T_D_HOLD_REJ * hold_rej); EXTERN void cc_retrieve_ack (void); EXTERN void cc_retrieve_rej (T_D_RETRIEVE_REJ * retrieve_rej); EXTERN void cc_congestion_control (T_B_CONGEST_CTRL * cong); EXTERN void cc_user_information (T_B_USER_INFO * user); EXTERN void cc_modify (T_B_MODIFY * modify); EXTERN void cc_mod_reject (void); EXTERN void cc_mod_complete (void); EXTERN void cc_modify_complete (T_B_MODIFY_COMP * mod_com); EXTERN void cc_modify_reject (T_B_MODIFY_REJ * mod_rej); EXTERN void cc_status (T_B_STATUS * status); EXTERN void cc_status_enquiry (void); EXTERN void cc_unknown_message (void); /* * Prototypes Call Control (Release) */ EXTERN void cc_mncc_disconnect_req (T_MNCC_DISCONNECT_REQ * mncc_disconnect_req); EXTERN void cc_mncc_reject_req (T_MNCC_REJECT_REQ * rej); EXTERN void cc_mncc_release_req (T_MNCC_RELEASE_REQ * mncc_release_req ); EXTERN void cc_disconnect (T_D_DISCONNECT * disconnect); EXTERN void cc_release (T_D_RELEASE * release); EXTERN void cc_release_complete (T_D_RELEASE_COMP * rel_com); EXTERN void cc_rel_ind (USHORT cause); EXTERN void cc_err_ind (T_MMCM_ERROR_IND *mmcm_error_ind); /* * Prototypes Call Control Functions */ EXTERN BOOL cc_voice_capability (void); EXTERN BOOL cc_bcs_compatible (const T_M_CC_bearer_cap * bc1, const T_M_CC_bearer_cap * bc2, BOOL full); EXTERN void cc_build_llc (UBYTE * v_low_layer_compat, T_M_CC_low_layer_comp * low_layer_compat, const T_M_CC_bearer_cap * bc); EXTERN void cc_build_bc (T_M_CC_bearer_cap * bearer_cap, UBYTE * serv, const T_MNCC_bcpara * bc_params); EXTERN void cc_set_conn_elem (T_M_CC_bearer_cap * bearer_cap, UBYTE conn_elem, UBYTE flow_control); EXTERN void cc_set_sync_async (T_M_CC_bearer_cap * bearer_cap, const T_MNCC_bcpara * bcpara); EXTERN void cc_set_user_rate (T_M_CC_bearer_cap * bearer_cap, UBYTE rate, UBYTE modem_type); EXTERN void cc_build_call_confirm (T_U_CALL_CONF * call_cnf, USHORT cause); EXTERN void cc_build_cc_est_confirm (T_U_CC_EST_CONF * cc_est_conf, USHORT cause); EXTERN void cc_build_congestion_control (const T_MNCC_USER_REQ * user, T_B_CONGEST_CTRL * cong_ctrl); EXTERN void cc_build_disconnect (T_U_DISCONNECT * disconnect, USHORT cause, const T_NAS_fac_inf * fac_inf, UBYTE ss_ver); EXTERN void cc_build_emergency_setup (T_U_EMERGE_SETUP * emergency_setup); EXTERN void cc_build_facility (const T_MNCC_FACILITY_REQ * facility, T_U_FACILITY * facility_msg); EXTERN void cc_build_mncc_alert_ind (const T_D_ALERT * alert, T_MNCC_ALERT_IND * alert_ind); EXTERN void cc_build_mncc_proceed_ind (const T_D_CALL_PROCEED * proceed, T_MNCC_CALL_PROCEED_IND * proceed_ind); EXTERN void cc_build_mncc_facility_ind (const T_D_FACILITY * facility, T_MNCC_FACILITY_IND * facility_ind); EXTERN void cc_build_mncc_progress_ind (const T_D_PROGRESS * progress, T_MNCC_PROGRESS_IND * progress_ind); EXTERN void cc_build_mncc_setup_cnf (const T_D_CONNECT * connect, T_MNCC_SETUP_CNF * setup_cnf); EXTERN void cc_build_mncc_setup_ind (const T_D_SETUP * setup, T_MNCC_SETUP_IND * setup_ind); EXTERN void cc_build_modify (const T_MNCC_MODIFY_REQ * modify, T_B_MODIFY * modify_msg); EXTERN void cc_build_modify_complete (T_B_MODIFY_COMP * modify_com); EXTERN void cc_build_modify_reject (T_B_MODIFY_REJ * modify_rej, USHORT cause); EXTERN void cc_build_release (T_U_RELEASE * release, USHORT cause, const T_NAS_fac_inf * fac_inf, UBYTE ss_ver); EXTERN void cc_build_release_complete (T_U_RELEASE_COMP * rel_com, USHORT cause); EXTERN void cc_build_start_cc (T_U_START_CC * start_cc); EXTERN void cc_build_llc_hlc (T_U_SETUP * setup); EXTERN void cc_build_cc_capabilities (T_U_SETUP * setup); EXTERN void cc_build_setup (T_U_SETUP * setup_msg, const T_MNCC_SETUP_REQ *setup_prm); EXTERN void cc_build_start_dtmf (UBYTE key, T_U_START_DTMF * start_dtmf); EXTERN void cc_build_alert (T_U_ALERT * alert_msg); EXTERN void cc_build_connect (T_U_CONNECT * connect_msg); EXTERN void cc_build_status (T_B_STATUS * status, USHORT cause); EXTERN void cc_build_user_ind_from_cong (T_MNCC_USER_IND * user, const T_B_CONGEST_CTRL * cong); EXTERN void cc_build_user_ind_from_user (T_MNCC_USER_IND * user_ind, const T_B_USER_INFO * user); EXTERN void cc_build_user_information (T_MNCC_USER_REQ * user, T_B_USER_INFO * user_msg); EXTERN BOOL cc_check_error_flag (void); EXTERN UBYTE cc_compatibility_check (const T_D_SETUP * setup); EXTERN UBYTE cc_basic_service_align (T_U_SETUP * setup); EXTERN UBYTE cc_count_active_connections (void); EXTERN void cc_disconnect_after_timeout (void); EXTERN void cc_encode_cause (T_M_CC_cc_cause * cc_cause, USHORT cause); EXTERN UBYTE cc_mtc_check_subaddr (const T_D_SETUP * setup); EXTERN UBYTE cc_moc_compatibility (const T_D_CALL_PROCEED * proceed); EXTERN void cc_set_state (UBYTE new_state); EXTERN UBYTE cc_check_bc (const T_M_CC_bearer_cap * bearer_cap, T_M_CC_bearer_cap * neg_bearer_cap, T_MNCC_bcpara * bcpara, UBYTE * service, BOOL * negotiation); EXTERN void cc_set_radio_channel_requirement (T_M_CC_bearer_cap * bearer_cap, const T_MNCC_bcpara * bc_para); EXTERN void cc_set_trans_cap (T_M_CC_bearer_cap * bearer_cap, const T_MNCC_bcpara * bcpara); EXTERN void cc_set_data_default_parameter (T_M_CC_bearer_cap * bearer_cap); EXTERN void cc_build_facility_ind (UBYTE context, UBYTE valid, const T_M_CC_facility * facility); EXTERN void cc_build_user_user_ind (UBYTE context, UBYTE valid, T_M_CC_user_user * user_user); EXTERN UBYTE cc_check_capabilities (const T_MNCC_bcpara * bcpara); EXTERN void cc_check_transparent_async (UBYTE * found, const T_M_CC_bearer_cap * bearer_cap, T_M_CC_bearer_cap * neg_bearer_cap, T_MNCC_bcpara * bcpara, BOOL * negotiation); EXTERN void cc_check_non_transparent_async (UBYTE * found, const T_M_CC_bearer_cap * bearer_cap, T_M_CC_bearer_cap * neg_bearer_cap, T_MNCC_bcpara * bcpara, BOOL * negotiation); EXTERN UBYTE cc_check_transparent_fax (const T_M_CC_bearer_cap * bearer_cap, T_M_CC_bearer_cap * neg_bearer_cap, T_MNCC_bcpara * bcpara, BOOL * negotiation); #ifdef SIM_TOOLKIT EXTERN UBYTE cc_bearer_cap_code (const T_MNCC_bcpara *bcpara, T_MNCC_bcconf *bcconf ); EXTERN UBYTE cc_bearer_cap_decode (const T_MNCC_bcconf *bcconf, T_MNCC_bcpara *bcpara ); #endif /* CQ 23619: Added supplementary diagnostic handling */ EXTERN UBYTE cc_get_ss_diag ( USHORT curr_cause, T_D_DISCONNECT * disc); EXTERN UBYTE cc_build_cause (T_M_CC_cc_cause * decoded_cause_val, UBYTE * raw_cause_bytes); /* Implements Measure# 3 and streamline encoding */ EXTERN void cc_send_status (USHORT cause); /* * Prototypes Services */ /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ #ifdef OPTION_MULTITHREAD #define srv_convert_ti _ENTITY_PREFIXED(srv_convert_ti) #define srv_define_ti _ENTITY_PREFIXED(srv_define_ti) #define srv_free_ti _ENTITY_PREFIXED(srv_free_ti) #define srv_free_stored_setup _ENTITY_PREFIXED(srv_free_stored_setup) #define srv_store_prim _ENTITY_PREFIXED(srv_store_prim) #define srv_use_stored_prim _ENTITY_PREFIXED(srv_use_stored_prim) #endif EXTERN UBYTE srv_convert_ti (UBYTE ti); EXTERN UBYTE srv_define_ti (void); EXTERN void srv_free_ti (void); EXTERN void srv_free_stored_setup (void); EXTERN void srv_store_prim (T_PRIM * prim); EXTERN void srv_use_stored_prim (void); /* * Prototypes Timer */ /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ #ifdef OPTION_MULTITHREAD #define tim_exec_timeout _ENTITY_PREFIXED(tim_exec_timeout) #define tim_t303_u0_1 _ENTITY_PREFIXED(tim_t303_u0_1) #define tim_t303_u1 _ENTITY_PREFIXED(tim_t303_u1) #define tim_t305_u11 _ENTITY_PREFIXED(tim_t305_u11) #define tim_t308_u19 _ENTITY_PREFIXED(tim_t308_u19) #define tim_t310_u3 _ENTITY_PREFIXED(tim_t310_u3) #define tim_t313_u8 _ENTITY_PREFIXED(tim_t313_u8) #define tim_t323_u26 _ENTITY_PREFIXED(tim_t323_u26) #define tim_t332_u0_3 _ENTITY_PREFIXED(tim_t332_u0_3) #define tim_t335_u0_5 _ENTITY_PREFIXED(tim_t335_u0_5) #define tim_t336 _ENTITY_PREFIXED(tim_t336) #define tim_t337 _ENTITY_PREFIXED(tim_t337) #endif EXTERN void tim_exec_timeout (USHORT index); EXTERN void tim_t303_u0_1 (void); EXTERN void tim_t303_u1 (void); EXTERN void tim_t305_u11 (void); EXTERN void tim_t308_u19 (void); EXTERN void tim_t310_u3 (void); EXTERN void tim_t313_u8 (void); EXTERN void tim_t323_u26 (void); EXTERN void tim_t332_u0_3 (void); EXTERN void tim_t335_u0_5 (void); EXTERN void tim_t336 (void); EXTERN void tim_t337 (void); /* * Prototypes Customer Specific Functions */ GLOBAL void cc_csf_ms_cap (void); #ifdef TRACE_BCAP #define trace_buf cc_data->string_buf #endif /* #ifdef TRACE_BCAP */ /* * CC uses two timers for each instance, one for DTMF operation (T336, T337) * and one for the support of all other CC timers. * The timer for the supervision of the CC states is addressed by the * transaction identifier, the timer for the supervision of DTMF operation * is addressed by the transaction identifier plus an offset of MAX_CC_CALLS. * The macros are looking a little bit too complicated, * but they have the advantage of avoiding a lot of #ifdefs in the * code and it is expected that the if clauses are optimized * away by the C compiler. So no disadvantage at runtime is expected * if these macros remain macros and are not altered to functions. */ #define TIMER_CC 0 /* Used to stop all timers except T336, T337 */ #define TIMER_DTMF 1 /* Uses to stop T336, T337 which control DTMF */ #define TIMERSTART(i,v) \ if ((i NEQ T336) AND (i NEQ T337)) \ TIMER_START (cc_handle, (USHORT)(cc_data->index_ti), v); \ else \ TIMER_START (cc_handle, (USHORT)(cc_data->index_ti+MAX_CC_CALLS), v); #define TIMERSTOP(i) \ if (i EQ TIMER_CC) \ TIMER_STOP (cc_handle, (USHORT)(cc_data->index_ti)); \ else \ TIMER_STOP (cc_handle, (USHORT)(cc_data->index_ti+MAX_CC_CALLS)); /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #ifdef TI_PS_HCOMM_CHANGE #else #define hCommMMI _ENTITY_PREFIXED(hCommMMI) #define hCommMM _ENTITY_PREFIXED(hCommMM) #endif #endif #ifdef TI_PS_HCOMM_CHANGE #else EXTERN T_HANDLE hCommMMI; /* MMI Communication */ EXTERN T_HANDLE hCommMM; /* MM Communication */ #endif EXTERN T_HANDLE cc_handle; /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #define _decodedMsg _ENTITY_PREFIXED(_decodedMsg) #endif #if !defined SHARED_CCD_BUF #define CCD_START #define CCD_END EXTERN UBYTE _decodedMsg []; #else EXTERN UBYTE * _decodedMsg; #define CCD_START _decodedMsg = ccd_begin(); #define CCD_END ccd_end(); #endif /* * If all entities are linked into one module this definitions * prefixes the global data with the enity name */ #ifdef OPTION_MULTITHREAD #define data_base _ENTITY_PREFIXED(data_base) #endif #ifdef OPTION_MULTIPLE_INSTANCE EXTERN T_CC_DATA data_base [MAX_INSTANCES]; #define GET_INSTANCE(p) &data_base[D2P(p)->custom.route.inst_no] #else EXTERN T_CC_DATA data_base; #define GET_INSTANCE_DATA register T_CC_DATA *cc_data= &data_base #endif /* * If all entities are linked into one module this definitions * prefixes the global data with the entity name */ #define bc_prio_0 _ENTITY_PREFIXED(bc_prio_0) EXTERN const UBYTE bc_prio_0 [4]; #ifndef _TMS470 int sprintf (char *, const char *, ...); /* Use appropriate include ... */ #define Sprintf sprintf #endif #ifdef WIN32 EXTERN UBYTE std; #endif /* WIN32 */ EXTERN void cc_pei_primitive (T_PRIM * prim); #endif