FreeCalypso > hg > fc-magnetite
view src/g23m-aci/aci/psa_gpppf.c @ 657:b36733f14177
aci3 for MMI != 0: same R2D check as in aci2
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Fri, 08 May 2020 00:58:42 +0000 |
parents | 53929b40109c |
children |
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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 : This module defines the functions for the protocol | stack adapter for GPRS Point-to-Point Protocol ( PPP ). +----------------------------------------------------------------------------- */ #if defined (GPRS) && defined (DTI) #ifndef PSA_GPPPF_C #define PSA_GPPPF_C #endif #include "aci_all.h" #undef TRACING /*==== INCLUDES ===================================================*/ #include "dti.h" /* functionality of the dti library */ #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_cmd.h" #include "aci.h" #include "psa.h" #include "dti_conn_mng.h" #include "dti_cntrl_mng.h" #include "gaci.h" #include "gaci_cmh.h" #include "cmh.h" #include "cmh_sm.h" #include "psa_gppp.h" #include "aci_io.h" #include "psa_uart.h" #include "sap_dti.h" #ifdef FF_PSI #include "psa_psi.h" #include "cmh_psi.h" #include "ati_src_psi.h" #endif /*FF_PSI*/ /*==== CONSTANTS ==================================================*/ /*#define ITM_WDT (14)*/ /* item width in chars */ /*#define HDR_WDT (10)*/ /* header width in chars */ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ EXTERN GLOBAL void cmhGPPP_send_establish_request ( UBYTE peer, UBYTE prot ); /* +-------------------------------------------------------------------+ | PROJECT : GPRS (8441) MODULE : PSA_PPPF | | STATE : code ROUTINE : psaGPPP_Init | +-------------------------------------------------------------------+ PURPOSE : initialize the protocol stack adapter for PPP. */ /* MACRO: initializer for set parameter */ #ifdef INIT_SET_PARM #undef INIT_SET_PARM #endif #define INIT_SET_PARM( dest, def )\ for( LpCnt = 0; LpCnt < OWN_SRC_MAX; LpCnt++ )\ gpppShrdPrm.setPrm[LpCnt].dest = def GLOBAL void psaGPPP_Init ( UBYTE accm, UBYTE restart_timer, UBYTE max_configure, UBYTE max_terminate, UBYTE max_failure ) { /* *------------------------------------------------------------------- * set default parms *------------------------------------------------------------------- */ gpppShrdPrm.owner = (UBYTE) CMD_SRC_NONE; gpppShrdPrm.ppp_authentication_protocol = PPP_AP_AUTO; gpppShrdPrm.accm = accm; gpppShrdPrm.restart_timer = restart_timer; gpppShrdPrm.max_configure = max_configure; gpppShrdPrm.max_terminate = max_terminate; gpppShrdPrm.max_failure = max_failure; } UBYTE GPPS_First_Stored_Peer = 0; // HHV: Bad hack due to two DTI links in one prim! GLOBAL void psaGPPPS_Dti_Req( T_DTI_CONN_LINK_ID link_id, UBYTE peer ) { T_PDP_CONTEXT_INTERNAL *p_pdp_context_node = NULL; TRACE_FUNCTION("psaGPPPS_Dti_Req()"); p_pdp_context_node = pdp_context_find_node_from_cid( work_cids[0]); switch ( peer ) { #ifdef BT_ADAPTER case DTI_ENTITY_BLUETOOTH: p_pdp_context_node->internal_data.link_id_uart = link_id; dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_BLUETOOTH, 0, 0); dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PPPS, 0, 0); if (GPPS_First_Stored_Peer) { io_setDCD (p_pdp_context_node->internal_data.owner, IO_DCD_ON); cmhGPPP_send_establish_request(GPPS_First_Stored_Peer, DTI_ENTITY_BLUETOOTH); GPPS_First_Stored_Peer = 0; } else { GPPS_First_Stored_Peer = DTI_ENTITY_BLUETOOTH; } break; #endif /* BT_ADAPTER */ case DTI_ENTITY_UART: p_pdp_context_node->internal_data.link_id_uart = link_id; dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_UART, 0, 0); dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PPPS, 0, 0); if (GPPS_First_Stored_Peer) { io_setDCD (p_pdp_context_node->internal_data.owner, IO_DCD_ON); cmhGPPP_send_establish_request(GPPS_First_Stored_Peer, DTI_ENTITY_UART); GPPS_First_Stored_Peer = 0; } else { GPPS_First_Stored_Peer = DTI_ENTITY_UART; } break; #if 0 /* For the 3G protocol stack PPP can not have UPM as peer as all data goes through SNDCP! */ case DTI_ENTITY_UPM: p_pdp_context_node->internal_data.link_id = link_id; dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_UPM, 0, 0); dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PPPS, 0, 0); if (GPPS_First_Stored_Peer) { T_DTI_ENTITY_ID other_peer = dti_cntrl_get_peer(DTI_ENTITY_PPPS, 0, 0); if(DTI_ENTITY_UART EQ other_peer) { io_setDCD (p_pdp_context_node->internal_data.owner, IO_DCD_ON); } cmhGPPP_send_establish_request(GPPS_First_Stored_Peer, DTI_ENTITY_UPM); GPPS_First_Stored_Peer = 0; } else { GPPS_First_Stored_Peer = DTI_ENTITY_UPM; } break; #endif /* 0 */ #ifdef FF_PSI case DTI_ENTITY_PSI: p_pdp_context_node->internal_data.link_id_uart = link_id; dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PSI, 0, 0); dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PPPS, 0, 0); if (GPPS_First_Stored_Peer) { io_setDCD (p_pdp_context_node->internal_data.owner, IO_DCD_ON); cmhGPPP_send_establish_request(GPPS_First_Stored_Peer, DTI_ENTITY_PSI); } else { GPPS_First_Stored_Peer = DTI_ENTITY_PSI; } break; #endif /*FF_PSI*/ case DTI_ENTITY_AAA: p_pdp_context_node->internal_data.link_id_uart = link_id; dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_AAA, 0, 0); dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PPPS, 0, 0); if (GPPS_First_Stored_Peer) { cmhGPPP_send_establish_request(GPPS_First_Stored_Peer, DTI_ENTITY_AAA); GPPS_First_Stored_Peer = 0; } else { GPPS_First_Stored_Peer = DTI_ENTITY_AAA; } break; case DTI_ENTITY_SNDCP: p_pdp_context_node->internal_data.link_id = link_id; dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_SNDCP, 0, 0); dti_cntrl_set_conn_parms(link_id, DTI_ENTITY_PPPS, 0, 0); if (GPPS_First_Stored_Peer) { T_DTI_ENTITY_ID other_peer = dti_cntrl_get_peer(DTI_ENTITY_PPPS, 0, 0); if(DTI_ENTITY_UART EQ other_peer) { io_setDCD (p_pdp_context_node->internal_data.owner, IO_DCD_ON); } cmhGPPP_send_establish_request(GPPS_First_Stored_Peer, DTI_ENTITY_SNDCP); GPPS_First_Stored_Peer = 0; } else { GPPS_First_Stored_Peer = DTI_ENTITY_SNDCP; } break; } } /* +-------------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : PSA_PPPF | | STATE : code ROUTINE : PPP_UART_connect_dti_cb | +-------------------------------------------------------------------------+ PURPOSE : Callback for DTI connection between PPP Server and UART. */ GLOBAL BOOL PPP_UART_connect_dti_cb(UBYTE dti_id, T_DTI_CONN_STATE result_type) { TRACE_FUNCTION("PPP_UART_connect_dti_cb"); switch( result_type) { case DTI_CONN_STATE_DISCONNECTING: break; case DTI_CONN_STATE_DISCONNECTED: dti_cntrl_clear_conn_parms(dti_id); if (dti_cntrl_is_dti_id_to_reconnect(dti_id)) { T_DTI_ENTITY_ID entity_list[] = {DTI_ENTITY_ACI}; T_DTI_CNTRL info; if (dti_cntrl_get_info_from_dti_id( dti_id, &info) EQ FALSE) { TRACE_EVENT_P1("cannot find info for dti_id=%d", dti_id); return FALSE; } if (info.dev_id EQ DTI_ENTITY_UART) { io_setDCD ((T_ACI_CMD_SRC)info.src_id, IO_DCD_OFF); dti_cntrl_clear_dti_id_to_reconnect(dti_id); dti_cntrl_est_dpath_indirect ( info.src_id, entity_list, 1, SPLIT, atiUART_dti_cb, DTI_CPBLTY_CMD, DTI_CID_NOTPRESENT); } #ifdef FF_PSI else if (info.dev_id EQ DTI_ENTITY_PSI) { io_setDCD ((T_ACI_CMD_SRC)info.src_id, IO_DCD_OFF); dti_cntrl_clear_dti_id_to_reconnect(dti_id); dti_cntrl_est_dpath_indirect ( info.src_id, entity_list, 1, SPLIT, atiPSI_dti_cb, DTI_CPBLTY_CMD, DTI_CID_NOTPRESENT); } #endif /*FF_PSI*/ else return FALSE; } break; case DTI_CONN_STATE_CONNECTING: break; case DTI_CONN_STATE_CONNECTED: break; case DTI_CONN_STATE_ERROR: /* connection not possible: disconnect PPP */ dti_cntrl_close_dpath_from_dti_id(dti_id); break; case DTI_CONN_STATE_UNKNOWN: default: TRACE_EVENT("PPP_UART_connect_dti_cb call with not awaited value"); break; } return TRUE; } #if 0 /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_PPPF | | ROUTINE : psaGPPP_shrPrmDump | +-------------------------------------------------------------------+ PURPOSE : this function dumps the shared parameter to the debug output. */ GLOBAL void psaGPPP_shrPrmDump ( void ) { #ifdef TRACING char lnBuf [80]; /* holds buffer for output line */ char mccBuf[SIZE_MCC + 1]; /* MCC converted to printable C-string */ char mncBuf[SIZE_MNC + 1]; /* MNC converted to printable C-string */ SHORT chrNr; /* holds number of processed chars */ SHORT cnt; /* holds a counter */ /* --- PLMN list ------------------------------------------------*/ for( cnt = 0; cnt<MAX_PLMN_ID AND mmShrdPrm.PLMNLst[cnt].v_plmn NEQ INVLD_PLMN; cnt++ ) { chrNr = sprintf( lnBuf, "%*.*s[%2d]", HDR_WDT, HDR_WDT, " PLMN list",cnt ); utl_BCD2String (mccBuf, mmShrdPrm.PLMNLst[cnt].mcc, SIZE_MCC); utl_BCD2String (mncBuf, mmShrdPrm.PLMNLst[cnt].mnc, SIZE_MNC); chrNr += sprintf( lnBuf+chrNr, "%*s %*s", ITM_WDT/2, ITM_WDT/2, mccBuf, mncBuf); TRACE_EVENT( lnBuf ); } /* --- used PLMN ------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " used PLMN" ); if( mmShrdPrm.usedPLMN.v_plmn EQ VLD_PLMN ) { utl_BCD2String (mccBuf, mmShrdPrm.usedPLMN.mcc, SIZE_MCC); utl_BCD2String (mncBuf, mmShrdPrm.usedPLMN.mnc, SIZE_MNC); chrNr += sprintf( lnBuf+chrNr, "%*s %*s", ITM_WDT/2, ITM_WDT/2, mccBuf, mncBuf); } else { chrNr += sprintf( lnBuf+chrNr, "%*s", ITM_WDT, "none" ); } TRACE_EVENT( lnBuf ); /* --- registration mode ----------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "rgstr mode" ); chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, mmShrdPrm.setPrm[0].regMode ); TRACE_EVENT( lnBuf ); /* --- registration status --------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "rgstr stat" ); chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, mmShrdPrm.regStat ); TRACE_EVENT( lnBuf ); /* --- search result --------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " srch rslt" ); chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, mmShrdPrm.srchRslt ); TRACE_EVENT( lnBuf ); /* --- de-registration cause ------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "dereg caus" ); chrNr += sprintf( lnBuf+chrNr, "%*X", ITM_WDT, mmShrdPrm.deregCs ); TRACE_EVENT( lnBuf ); #endif /* of #ifdef TRACING */ } #endif /* #if 0 */ #endif /* GPRS */ /*==== EOF ========================================================*/