FreeCalypso > hg > fc-magnetite
view src/g23m-gprs/gmm/gmm_f.c @ 685:3fb7384e820d
tpudrv12.h: FCDEV3B goes back to being itself
A while back we had the idea of a FreeCalypso modem family whereby our
current fcdev3b target would some day morph into fcmodem, with multiple
FC modem family products, potentially either triband or quadband, being
firmware-compatible with each other and with our original FCDEV3B. But
in light of the discovery of Tango modules that earlier idea is now being
withdrawn: instead the already existing Tango hw is being adopted into
our FreeCalypso family.
Tango cannot be firmware-compatible with triband OM/FCDEV3B targets
because the original quadband RFFE on Tango modules is wired in TI's
original Leonardo arrangement. Because this Leonardo/Tango way is now
becoming the official FreeCalypso way of driving quadband RFFEs thanks
to the adoption of Tango into our FC family, our earlier idea of
extending FIC's triband RFFE control signals with TSPACT5 no longer makes
much sense - we will probably never produce any new hardware with that
once-proposed arrangement. Therefore, that triband-or-quadband FCFAM
provision is being removed from the code base, and FCDEV3B goes back to
being treated the same way as CONFIG_TARGET_GTAMODEM for RFFE control
purposes.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Thu, 24 Sep 2020 21:03:08 +0000 |
| parents | 219afcfc6250 |
| children |
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/* +----------------------------------------------------------------------------- | Project : GPRS (8441) | 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 : This modul is part of the entity GRR and implements all | procedures and functions as described in the | SDL-documentation (-statemachine) +----------------------------------------------------------------------------- */ #ifndef GMM_F_C #define GMM_F_C #endif #define ENTITY_GMM /*==== INCLUDES =============================================================*/ #include "typedefs.h" /* to get Condat data types */ #include "vsi.h" /* to get a lot of macros */ #include "macdef.h" #include "gprs.h" #include "gsm.h" /* to get a lot of macros */ #include "ccdapi.h" /* to get CCD API */ #include "cnf_gmm.h" /* to get cnf-definitions */ #include "mon_gmm.h" /* to get mon-definitions */ #include "prim.h" /* to get the definitions of used SAP and directions */ #include "gmm.h" /* to get the global entity definitions */ #include "gmm_f.h" #include <stdlib.h> /* JK, delete warnings: to get rand() */ /*==== CONST ================================================================*/ /*==== DIAGNOSTICS ==========================================================*/ #ifndef TRACE_INFO /* only used in local environment */ # define TRACE_INFO(x) #endif #ifndef TRACE_COMMENT /* only used in local environment */ # define TRACE_COMMENT(x) #endif /*==== LOCAL VARS ===========================================================*/ /*==== PRIVATE FUNCTIONS ====================================================*/ /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : gmm_set_current_tlli +------------------------------------------------------------------------------ | Description : derives the current TLLI with the given TLLI type and saves | the old TLLI | | Parameters : tlli_type - the wanted TLLI type | +------------------------------------------------------------------------------ */ GLOBAL void gmm_set_current_tlli ( T_TLLI_TYPE tlli_type ) { GMM_TRACE_FUNCTION ("gmm_set_current_tlli"); gmm_data->tlli.old = gmm_data->tlli.current, gmm_data->tlli.current = gmm_get_tlli ( tlli_type ); GMM_TRACE_GMM_DATA(GMM_DEBUG_PRINT_MASK_TLLI); GMM_RETURN; } /* gmm_set_current_tlli */ /* +------------------------------------------------------------------------------ | Function : gmm_get_tlli +------------------------------------------------------------------------------ | Description : returns the wanted TLLI | | Parameters : tlli_type - the wanted TLLI type | +------------------------------------------------------------------------------ */ GLOBAL ULONG gmm_get_tlli ( T_TLLI_TYPE tlli_type ) { GMM_TRACE_FUNCTION ("gmm_get_tlli()"); /* * the random tlli must be created */ if ( GMMRR_TMSI_INVALID == gmm_data->ptmsi.current /* * the random tlli must be created */ && tlli_type != RANDOM_TLLI && tlli_type != CURRENT_TLLI ) { gmm_data->ptmsi.current= GMMRR_TMSI_INVALID; gmm_data->ptmsi.new_grr = GMMRR_TMSI_INVALID; gmm_data->ptmsi.old = GMMRR_TMSI_INVALID; gmm_data->tlli.current_type = INVALID_TLLI; TRACE_0_OUT_PARA ("first tlli used"); GMM_RETURN_ ( LLGMM_TLLI_INVALID); } else { /* gmm_data->ptmsi.v_mid = TRUE; */ switch ( tlli_type ) { case LOCAL_TLLI: gmm_data->tlli.current_type = tlli_type; gmm_data->tlli.current = gmm_data->ptmsi.current | LOCAL_TLLI_SET_MASK; gmm_data->tlli.current &= LOCAL_TLLI_RES_MASK; TRACE_0_OUT_PARA("local tlli used"); break; case FOREIGN_TLLI: gmm_data->tlli.current_type = tlli_type; gmm_data->tlli.current = gmm_data->ptmsi.current | FOREIGN_TLLI_SET_MASK; gmm_data->tlli.current &= FOREIGN_TLLI_RES_MASK; TRACE_0_OUT_PARA ("foreign tlli used"); break; case RANDOM_TLLI: gmm_data->tlli.current_type = CURRENT_TLLI; #ifdef _SIMULATION_ /* This number is a very random number */ gmm_data->ptmsi.current = 0x06081997L; #else gmm_data->ptmsi.current = (rand()<<16) +rand(); #endif gmm_data->tlli.current = gmm_data->ptmsi.current | RANDOM_TLLI_SET_MASK; gmm_data->tlli.current &= RANDOM_TLLI_RES_MASK; gmm_data->ptmsi.current = GMMRR_TMSI_INVALID; gmm_data->ptmsi.old = GMMRR_TMSI_INVALID; TRACE_0_OUT_PARA ("random tlli used"); break; case OLD_TLLI: GMM_RETURN_ (gmm_data->tlli.old); case CURRENT_TLLI: GMM_RETURN_ (gmm_data->tlli.current)/*gmm_get_tlli ( gmm_data->tlli.current_type )*/; case INVALID_TLLI: TRACE_0_OUT_PARA ("first tlli used"); GMM_RETURN_ (LLGMM_TLLI_INVALID); default: TRACE_ERROR ("WRONG TLLI TYPE received"); break; } GMM_RETURN_ (gmm_data->tlli.current); } } /* gmm_get_tlli */ /* +------------------------------------------------------------------------------ | Function : gmm_debug_do_print_gmm_data +------------------------------------------------------------------------------ | Description : prints gmm data control block | | Parameters : print mask: select type of information to be printed | +------------------------------------------------------------------------------ */ GLOBAL void gmm_debug_do_print_gmm_data(GMM_DEBUG_PRINT_MASK_ENUM_TYPE print_mask) { /* * COMMON */ if (print_mask & GMM_DEBUG_PRINT_MASK_COMMON) { TRACE_1_DATA("* Version : %u", gmm_data->version); TRACE_1_DATA("* Cipher : %u", gmm_data->cipher); } /* * STATE */ if (print_mask & GMM_DEBUG_PRINT_MASK_STATE) { #ifndef NTRACE TRACE_1_DATA("* Kern State : %s", gmm_data->kern.state_name); TRACE_1_DATA("* TX State : %s", gmm_data->tx.state_name); TRACE_1_DATA("* RX State : %s", gmm_data->rx.state_name); TRACE_1_DATA("* RDY State : %s", gmm_data->rdy.state_name); TRACE_1_DATA("* SYNC State : %s", gmm_data->sync.state_name); #endif } /* * TLLI */ if (print_mask & GMM_DEBUG_PRINT_MASK_TLLI) { TRACE_1_DATA("* TLLI current : %#x", gmm_data->tlli.current); TRACE_1_DATA("* TLLI old : %#x", gmm_data->tlli.old); switch (gmm_data->tlli.current_type) { case LOCAL_TLLI: TRACE_0_DATA("* TLLI type : LOCAL"); break; case FOREIGN_TLLI: TRACE_0_DATA("* TLLI type : FOREIGN"); break; case RANDOM_TLLI: TRACE_0_DATA("* TLLI type : RANDOM"); break; case CURRENT_TLLI: TRACE_0_DATA("* TLLI type : CURRENT"); break; case OLD_TLLI: TRACE_0_DATA("* TLLI type : OLD"); break; case INVALID_TLLI: TRACE_0_DATA("* TLLI type : INVALID"); break; default: TRACE_1_DATA("* TLLI type : %u unknown!", gmm_data->tlli.current_type); } } /* * IMSI */ if (print_mask & GMM_DEBUG_PRINT_MASK_IMSI) { TRACE_8_DATA("* IMSI[]: %1d %1d %1d %1d %1d %1d %1d %1d", gmm_data->imsi.id[0], gmm_data->imsi.id[1], gmm_data->imsi.id[2], gmm_data->imsi.id[3], gmm_data->imsi.id[4], gmm_data->imsi.id[5], gmm_data->imsi.id[6], gmm_data->imsi.id[7]); TRACE_8_DATA("* IMSI[]: %1d %1d %1d %1d %1d %1d %1d %1d", gmm_data->imsi.id[8], gmm_data->imsi.id[9], gmm_data->imsi.id[10], gmm_data->imsi.id[11], gmm_data->imsi.id[12], gmm_data->imsi.id[13], gmm_data->imsi.id[14], gmm_data->imsi.id[15]); } /* * P-TMSI */ if (print_mask & GMM_DEBUG_PRINT_MASK_PTMSI) { TRACE_1_DATA("* PTMSI current: %#x", gmm_data->ptmsi.current); TRACE_1_DATA("* PTMSI old : %#x", gmm_data->ptmsi.old); TRACE_1_DATA("* PTMSI grr : %#x", gmm_data->ptmsi.new_grr); } /* * CID */ if (print_mask & GMM_DEBUG_PRINT_MASK_CID) { TRACE_0_DATA("* kern. cid rac lac mcc mnc"); TRACE_9_DATA("* cell_id %#6x %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->kern.cell_id.cid, gmm_data->kern.cell_id.rac, gmm_data->kern.cell_id.lac, gmm_data->kern.cell_id.plmn.mcc[0], gmm_data->kern.cell_id.plmn.mcc[1], gmm_data->kern.cell_id.plmn.mcc[2], gmm_data->kern.cell_id.plmn.mnc[0], gmm_data->kern.cell_id.plmn.mnc[1], gmm_data->kern.cell_id.plmn.mnc[2]); TRACE_9_DATA("* mm_cell_env %#6x %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->kern.mm_cell_env.cid, gmm_data->kern.mm_cell_env.rai.rac, gmm_data->kern.mm_cell_env.rai.lac, gmm_data->kern.mm_cell_env.rai.plmn.mcc[0], gmm_data->kern.mm_cell_env.rai.plmn.mcc[1], gmm_data->kern.mm_cell_env.rai.plmn.mcc[2], gmm_data->kern.mm_cell_env.rai.plmn.mnc[0], gmm_data->kern.mm_cell_env.rai.plmn.mnc[1], gmm_data->kern.mm_cell_env.rai.plmn.mnc[2]); TRACE_9_DATA("* sig_cell_info.env %#6x %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->kern.sig_cell_info.env.cid, gmm_data->kern.sig_cell_info.env.rai.rac, gmm_data->kern.sig_cell_info.env.rai.lac, gmm_data->kern.sig_cell_info.env.rai.plmn.mcc[0], gmm_data->kern.sig_cell_info.env.rai.plmn.mcc[1], gmm_data->kern.sig_cell_info.env.rai.plmn.mcc[2], gmm_data->kern.sig_cell_info.env.rai.plmn.mnc[0], gmm_data->kern.sig_cell_info.env.rai.plmn.mnc[1], gmm_data->kern.sig_cell_info.env.rai.plmn.mnc[2]); TRACE_9_DATA("* old_sig_cell_info.env %#6x %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->kern.old_sig_cell_info.env.cid, gmm_data->kern.old_sig_cell_info.env.rai.rac, gmm_data->kern.old_sig_cell_info.env.rai.lac, gmm_data->kern.old_sig_cell_info.env.rai.plmn.mcc[0], gmm_data->kern.old_sig_cell_info.env.rai.plmn.mcc[1], gmm_data->kern.old_sig_cell_info.env.rai.plmn.mcc[2], gmm_data->kern.old_sig_cell_info.env.rai.plmn.mnc[0], gmm_data->kern.old_sig_cell_info.env.rai.plmn.mnc[1], gmm_data->kern.old_sig_cell_info.env.rai.plmn.mnc[2]); TRACE_0_DATA("* sync. cid rac lac mcc mnc"); TRACE_8_DATA("* mm_cell_info %#6x ------ %#6x %1x%1x%1x %1x%1x%1x", gmm_data->sync.mm_cell_info.cid, gmm_data->sync.mm_cell_info.lac, gmm_data->sync.mm_cell_info.plmn.mcc[0], gmm_data->sync.mm_cell_info.plmn.mcc[1], gmm_data->sync.mm_cell_info.plmn.mcc[2], gmm_data->sync.mm_cell_info.plmn.mnc[0], gmm_data->sync.mm_cell_info.plmn.mnc[1], gmm_data->sync.mm_cell_info.plmn.mnc[2]); TRACE_9_DATA("* grr_cell_info.cell_env %#6x %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->sync.grr_cell_info.cell_env.cid, gmm_data->sync.grr_cell_info.cell_env.rai.rac, gmm_data->sync.grr_cell_info.cell_env.rai.lac, gmm_data->sync.grr_cell_info.cell_env.rai.plmn.mcc[0], gmm_data->sync.grr_cell_info.cell_env.rai.plmn.mcc[1], gmm_data->sync.grr_cell_info.cell_env.rai.plmn.mcc[2], gmm_data->sync.grr_cell_info.cell_env.rai.plmn.mnc[0], gmm_data->sync.grr_cell_info.cell_env.rai.plmn.mnc[1], gmm_data->sync.grr_cell_info.cell_env.rai.plmn.mnc[2]); TRACE_9_DATA("* sig_cell_info.env %#6x %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->sync.sig_cell_info.env.cid, gmm_data->sync.sig_cell_info.env.rai.rac, gmm_data->sync.sig_cell_info.env.rai.lac, gmm_data->sync.sig_cell_info.env.rai.plmn.mcc[0], gmm_data->sync.sig_cell_info.env.rai.plmn.mcc[1], gmm_data->sync.sig_cell_info.env.rai.plmn.mcc[2], gmm_data->sync.sig_cell_info.env.rai.plmn.mnc[0], gmm_data->sync.sig_cell_info.env.rai.plmn.mnc[1], gmm_data->sync.sig_cell_info.env.rai.plmn.mnc[2]); TRACE_0_DATA("* kern.attach_cap. rac lac mcc mnc"); TRACE_8_DATA("* rai_accepted %#6x %#6x %1x%1x%1x %1x%1x%1x", gmm_data->kern.attach_cap.rai_accepted.rac, gmm_data->kern.attach_cap.rai_accepted.lac, gmm_data->kern.attach_cap.rai_accepted.mcc[0], gmm_data->kern.attach_cap.rai_accepted.mcc[1], gmm_data->kern.attach_cap.rai_accepted.mcc[2], gmm_data->kern.attach_cap.rai_accepted.mnc[0], gmm_data->kern.attach_cap.rai_accepted.mnc[1], gmm_data->kern.attach_cap.rai_accepted.mnc[2]); } /* * RAI */ /* * KERN ATTACH CAPABILITIES */ if (print_mask & GMM_DEBUG_PRINT_MASK_KERN_ATTACH) { } }