FreeCalypso > hg > fc-magnetite
view src/g23m-gsm/rr/rr_datg.c @ 291:21d128939204
implemented build option to disable sleep
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Thu, 31 Aug 2017 06:01:10 +0000 |
parents | 27a4235405c6 |
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 holds the functions for handling primitives | sent from entity GRR to entity RR and vice versa. +----------------------------------------------------------------------------- */ #ifndef RR_DATG_C #define RR_DATG_C #ifdef GPRS #define ENTITY_RR /*==== INCLUDES ===================================================*/ #include <string.h> #include <stddef.h> #include "typedefs.h" #include "pcm.h" #include "pconst.cdg" #include "mconst.cdg" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "pei.h" #include "tok.h" #include "rr_gprs.h" #include "rr.h" static UBYTE get_r_bit (void); static void handle_non_gprs_param(T_non_gprs* non_gprs); static void dat_rrgrr_rr_est_ind (void); static void dat_build_rr_initialisation_request (void); /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_channel_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_CHANNEL_REQ received from GRR. This primitive indicates to the RR to send a channel request */ void dat_rrgrr_channel_req (T_RRGRR_CHANNEL_REQ *chan_req) { GET_INSTANCE_DATA; USHORT req = (USHORT) (chan_req->req_data + 0x0400); TRACE_FUNCTION ("gprs_rrgrr_channel_req()"); /* * check availability of GPRS */ switch (GET_STATE(STATE_GPRS)) /* rr_data->gprs_data.gprs_avail) */ { case GPRS_PIM_BCCH: case GPRS_PAM_BCCH: case GPRS_PTM_BCCH: if (GET_STATE(STATE_DAT) NEQ DAT_NULL) { switch (req) { case ESTCS_GPRS_1P: case ESTCS_GPRS_SB: case ESTCS_PAGING: /* * reset values used in the Packet Access * Procedure */ if (IS_TIMER_ACTIVE(T3126)) { TIMERSTOP(T3126); } memset(rr_data->gprs_data.rr_sdu, NOT_PRESENT_8BIT, sizeof(rr_data->gprs_data.rr_sdu)); rr_data->gprs_data.tma_in_progress = FALSE; rr_data->gprs_data.fn = NOT_PRESENT_32BIT; rr_data->gprs_data.req_ref_idx = NOT_PRESENT_8BIT; rr_data->sc_data.first_attempt = TRUE; rr_data->repeat_est = FALSE; /* start procedure */ dat_start_immediate_assign((USHORT)(req EQ ESTCS_PAGING ? ESTCS_GPRS_PAGING : req)); SET_STATE(STATE_GPRS, GPRS_PAM_BCCH); break; default: TRACE_EVENT("channel request with wrong value"); break; } } else { TRACE_EVENT ("store channel req"); if(! srv_store_prim((T_PRIM *)D2P(chan_req))) { TRACE_EVENT("prim store full"); PFREE(chan_req); } return; } break; case GPRS_PIM_PBCCH: case GPRS_PAM_PBCCH: case GPRS_PTM_PBCCH: TRACE_EVENT ("chan_req w/ PBCCH!"); break; case GPRS_ACTIVATED: TRACE_EVENT ("no cell selected yet, or cell supports no GPRS"); break; case GPRS_SUSPENDED_BCCH: case GPRS_SUSPENDED_PBCCH: TRACE_EVENT ("GPRS is suspended!"); break; default: TRACE_EVENT ("GPRS not supported"); break; } PFREE (chan_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_check_gprs_imm_ass | +-----------------------------------------------------------------------------+ PURPOSE : checks an incoming immediate assignment message and forwards it to GRR if necessary. */ GLOBAL BOOL dat_check_gprs_imm_ass (T_MPH_UNITDATA_IND * unitdata, T_D_IMM_ASSIGN * imm_assign, UBYTE index) { GET_INSTANCE_DATA; BOOL ret = FALSE; int send_indication = 0; TRACE_FUNCTION ("dat_check_gprs_imm_ass()"); if (GET_STATE(STATE_GPRS) NEQ GPRS_PAM_BCCH) return FALSE; /* normal circuit switched handling */ TRACE_EVENT_P7 ("fn=%u tma=%u ri=%x d_t=%u (tmaip=%u fn=%d ri=%d)", unitdata->fn, imm_assign->tma, index, imm_assign->d_t, rr_data->gprs_data.tma_in_progress, rr_data->gprs_data.fn, rr_data->gprs_data.req_ref_idx); if (imm_assign->tma EQ TMA_1) { /* Message indicates to be the first message of two in a * two-message assignment of a downlink TBF. */ if (rr_data->gprs_data.tma_in_progress) { TRACE_ERROR ("more than one TMA after another!"); TRACE_EVENT_P4 ("ri=%x?%x(old) fn=%u?%u(old)", index, rr_data->gprs_data.req_ref_idx, unitdata->fn, rr_data->gprs_data.fn); } rr_data->gprs_data.tma_in_progress = TRUE; /* * store message, framenumber and burst index */ gprs_rrgrr_store_sdu(rr_data->gprs_data.rr_sdu, &unitdata->sdu); rr_data->gprs_data.fn = unitdata->fn; rr_data->gprs_data.req_ref_idx = index; ret = TRUE; /* further treatment by GRR */ } else { if (rr_data->gprs_data.tma_in_progress) { /* * MS awaits the second message of two in a two-message assignment * of a downlink TBF. * The message must belong to the same channel request * and the time difference must be less than two multiframes. */ BOOL in_time, same_reference_index; U32 delta_fn; if (rr_data->gprs_data.fn > unitdata->fn) delta_fn = unitdata->fn + HYPERFRAME - rr_data->gprs_data.fn; else delta_fn = unitdata->fn - rr_data->gprs_data.fn; in_time = (delta_fn/51) < 2; same_reference_index = rr_data->gprs_data.req_ref_idx EQ index; TRACE_EVENT_P6 ("TMA:delta_fn=%u %s time, %sequal ref idx(%x?%x): %s", delta_fn, in_time?"in":"out of", same_reference_index?"":"un", rr_data->gprs_data.req_ref_idx, index, (in_time AND same_reference_index)?"OK":"not ok"); if (in_time AND same_reference_index) { /* This is the matching second message of a tma. * -> Send both immediate assignments */ send_indication = 2; ret = TRUE; /* further treatment by GRR */ } else { TRACE_ERROR ("MS awaits second message of a tma, this is not the right one!"); if (!in_time) { /* * If the MS does not received the second IMMEDIATE ASSIGNMENT message * in a two-message assignment within two multiframe periods following * the first message, the MS shall discard the IA message received. */ rr_data->gprs_data.tma_in_progress = FALSE; rr_data->gprs_data.fn = NOT_PRESENT_32BIT; rr_data->gprs_data.req_ref_idx = NOT_PRESENT_8BIT; } if(imm_assign->d_t EQ D_T_TBF) { /* * stop timer and set RR state * the handling of PDCH is done by GPRS */ ret = TRUE; /* further treatment by GPRS */ } else { /* * allocation on SDCCH for GPRS * normal RR establishment */ ret = FALSE; } } } else { /* * MS donīt await the second message of two in a two-message assignment * of a downlink TBF and the message isnīt the first message of a tma. * * -> Send one indication to GRR */ send_indication = 1; if(imm_assign->d_t EQ D_T_TBF) { /* * stop timer and set RR state * the handling of PDCH is done by GPRS */ ret = TRUE; /* further treatment by GRR */ } else /* * allocation on SDCCH for GPRS * normal RR establishment */ ret = FALSE; } } if (send_indication) { if (send_indication EQ 2) { PALLOC_SDU ( rrgrr_ia_ind, RRGRR_IA_IND, MAX_L2_FRAME_SIZE * BITS_PER_BYTE); /* T_RRGRR_IA_IND */ /* * indicate first immediate assignment */ gprs_rrgrr_fill_from_stored_sdu(&rrgrr_ia_ind->sdu, rr_data->gprs_data.rr_sdu); rrgrr_ia_ind->fn = 0; /* not valid */ rrgrr_ia_ind->r_bit = 0; /* not valid */ PSENDX (GRR, rrgrr_ia_ind); } { PALLOC_SDU ( rrgrr_ia_ind2, RRGRR_IA_IND, MAX_L2_FRAME_SIZE * BITS_PER_BYTE); /* T_RRGRR_IA_IND */ /* * indicate second or sole immediate assignment */ if (unitdata->sdu.o_buf >= 8) { unitdata->sdu.o_buf -= 8; unitdata->sdu.l_buf += 8; } else { TRACE_ERROR("dat_check_gprs_imm_ass(), not able to move offset o_buf"); } gprs_rrgrr_fill_from_stored_sdu(&rrgrr_ia_ind2->sdu, &unitdata->sdu.buf[unitdata->sdu.o_buf/8]); rrgrr_ia_ind2->fn = unitdata->fn; rrgrr_ia_ind2->r_bit = get_r_bit (); PSENDX (GRR, rrgrr_ia_ind2); } } TRACE_EVENT_P1 ("dat_check_gprs_imm_ass() returns %u", ret); return ret; } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_check_immediate_assignment_ext | +-----------------------------------------------------------------------------+ PURPOSE : checks an incoming immediate assignment extended message and forwards it to GRR if necessary. */ GLOBAL void dat_check_imm_ass_ext (T_MPH_UNITDATA_IND * unitdata, UBYTE index) { GET_INSTANCE_DATA; TRACE_FUNCTION ("grps_check_immediate_assignment_ext()"); /*switch (rr_data->ms_data.establish_cause) { case ESTCS_GPRS_1P: case ESTCS_GPRS_SB: case ESTCS_GPRS_PAGING:*/ switch (GET_STATE(STATE_GPRS)) { case GPRS_PAM_BCCH: /* * Immediate Assignment Extended received on AGCH during connection * establishment */ { PALLOC_SDU (rrgrr_iaext_ind, RRGRR_IAEXT_IND, MAX_L2_FRAME_SIZE * BITS_PER_BYTE); gprs_rrgrr_store_sdu(rr_data->gprs_data.rr_sdu, &unitdata->sdu); gprs_rrgrr_fill_from_stored_sdu(&rrgrr_iaext_ind->sdu, rr_data->gprs_data.rr_sdu); rrgrr_iaext_ind->ia_index = index; rrgrr_iaext_ind->fn = unitdata->fn; rrgrr_iaext_ind->r_bit = get_r_bit(); PSENDX (GRR, rrgrr_iaext_ind); } break; default: break; } } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : att_check_imm_ass_rej | +-----------------------------------------------------------------------------+ PURPOSE : checks an incoming immediate assignment reject message and forwards it to GRR if necessary. */ GLOBAL UBYTE dat_check_imm_ass_rej (UBYTE wait_ind) { GET_INSTANCE_DATA; UBYTE ret = FALSE; TRACE_FUNCTION ("att_check_imm_ass_rej()"); /* switch (rr_data->ms_data.establish_cause) { case ESTCS_GPRS_1P: case ESTCS_GPRS_SB: case ESTCS_GPRS_PAGING: */ switch (GET_STATE(STATE_GPRS)) { case GPRS_PAM_BCCH: /* * Immediate Assignment Reject received on AGCH during connection * establishment */ { PALLOC( rrgrr_assignment_rej_ind, RRGRR_ASSIGNMENT_REJ_IND); rrgrr_assignment_rej_ind->wait_ind = wait_ind; rrgrr_assignment_rej_ind->r_bit = get_r_bit (); PSENDX (GRR, rrgrr_assignment_rej_ind); } ret = TRUE; break; /* return TRUE; */ default: break; } return ret; /* return FALSE; */ } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_check_imm_assign_pch | +-----------------------------------------------------------------------------+ PURPOSE : checks an incoming immediate assignment message in idle mode on PCH */ GLOBAL UBYTE dat_check_imm_assign_pch (T_MPH_UNITDATA_IND * unitdata, T_D_IMM_ASSIGN * imm_assign) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_check_imm_assign_pch()"); TRACE_EVENT("check dl ass"); if(imm_assign->d_t EQ D_T_TBF AND imm_assign->dl EQ DL_1) { PALLOC_SDU ( rrgrr_ia_ind, RRGRR_IA_DOWNLINK_IND, MAX_L2_FRAME_SIZE * BITS_PER_BYTE); switch(GET_STATE(STATE_GPRS)) { case GPRS_NULL: case GPRS_ACTIVATED: /* * here it would be possible to store it if we are in * cell reselection * but i think this does not make sense: * -> this is not page (ia_dl is only cell wide), * -> we dont know if its actually for us. * -> first we have to do a Cell Update. */ case GPRS_SUSPENDED_BCCH: case GPRS_SUSPENDED_PBCCH: TRACE_EVENT_P1("dl ass in state %d", GET_STATE(STATE_GPRS) ); PFREE(rrgrr_ia_ind); return TRUE; case GPRS_PIM_BCCH: case GPRS_PAM_BCCH: /* * Immediate Assignment received in idle mode and it is a PDCH */ TRACE_EVENT("dl ass"); rr_data->start_cell_reselection = FALSE; TRACE_EVENT_P1("start_cell_reselection %d", rr_data->start_cell_reselection); gprs_rrgrr_store_sdu(rr_data->gprs_data.rr_sdu, &unitdata->sdu); gprs_rrgrr_fill_from_stored_sdu(&rrgrr_ia_ind->sdu, rr_data->gprs_data.rr_sdu); rrgrr_ia_ind->fn = unitdata->fn; rrgrr_ia_ind->r_bit = NOT_PRESENT_8BIT; PSENDX (GRR, rrgrr_ia_ind); return TRUE; default: PFREE(rrgrr_ia_ind); return FALSE; } } return FALSE; } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_check_packet_paging_ind | +-----------------------------------------------------------------------------+ PURPOSE : checks an incoming paging whether it is for GPRS. */ UBYTE dat_check_packet_paging_ind (T_MPH_PAGING_IND * pag_ind) { GET_INSTANCE_DATA; UBYTE ret=2; TRACE_FUNCTION ("dat_check_packet_paging_ind ()"); if (pag_ind->channel_needed EQ CN_PACKET) { switch(GET_STATE(STATE_GPRS)) { case GPRS_PIM_BCCH: { /* * Inform GRR about packet paging */ PALLOC ( rrgrr_packet_paging_ind, RRGRR_PACKET_PAGING_IND ); switch (pag_ind->identity_type) { case ID_IMSI: rrgrr_packet_paging_ind->pg_type = RRGRR_IMSI; break; case ID_PTMSI: rrgrr_packet_paging_ind->pg_type = RRGRR_PTMSI; break; default: TRACE_EVENT("packet paging with TMSI"); break; } PSENDX (GRR, rrgrr_packet_paging_ind); } ret = 2; break; case GPRS_NULL: case GPRS_ACTIVATED: /*strange cases, ignore it */ break; case GPRS_SUSPENDED_BCCH: case GPRS_SUSPENDED_PBCCH: /*is is a packet paging but we are suspended so ignore it*/ ret = 2; break; default: break; } } else { /* normal CS paging */ switch(GET_STATE(STATE_GPRS)) { case GPRS_SUSPENDED_BCCH: case GPRS_SUSPENDED_PBCCH: case GPRS_NULL: case GPRS_ACTIVATED: /* we are already suspended so just react to the paging */ /* or GPRS is not activated */ ret = 0; break; default: /* ask GRR */ ret = 1; break; } } return ret; } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_start_sabm | +-----------------------------------------------------------------------------+ PURPOSE : starts connection establishment if a packet service is requested. */ BOOL dat_gprs_start_sabm(void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("gprs_start_sabm()"); switch (GET_STATE(STATE_GPRS)) { /* * Mobile originated packet connection */ case GPRS_PAM_BCCH: dat_build_rr_initialisation_request (); return TRUE; default: return FALSE; } } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_build_rr_initialisation_request| +-----------------------------------------------------------------------------+ PURPOSE : starts connection establishment if a mobile originated packet service is requested and it builds */ static void dat_build_rr_initialisation_request (void) { GET_INSTANCE_DATA; MCAST (rr_init_req, D_RR_INIT_REQ); PALLOC_MSG (establish_req, DL_ESTABLISH_REQ, D_RR_INIT_REQ); TRACE_FUNCTION ("grps_build_rr_initialisation_request()"); TRACE_EVENT ("POWER CLASS: grps_build_rr_initialisation_request()"); dat_code_prr_channel (&establish_req->ch_type, &establish_req->sapi, rr_data->sc_data.chan_desc.chan_type); /* * fill message parameter */ rr_init_req->msg_type = D_RR_INIT_REQ; rr_init_req->ciph_key_num.key_seq = rr_data->ms_data.cksn; memcpy(&rr_init_req->mob_class_2, &rr_data->ms_data.classmark2, sizeof(rr_init_req->mob_class_2)); /* * set power classes */ rr_init_req->mob_class_2.rf_pow_cap = att_get_power (); /* * set all other parameter */ rr_init_req->chan_coding.mac_mode = rr_data->gprs_data.mac_req; rr_init_req->chan_coding.cod_scheme = rr_data->gprs_data.cs_req; /* * store tlli independent from the used binary format */ rr_init_req->ded_tlli.l_ded_tlli = 32; rr_init_req->ded_tlli.o_ded_tlli = 0; ccd_codeByte (rr_init_req->ded_tlli.b_ded_tlli, 0, 8, (UBYTE)(rr_data->gprs_data.tlli >> 24)); ccd_codeByte (rr_init_req->ded_tlli.b_ded_tlli, 8, 8, (UBYTE)(rr_data->gprs_data.tlli >> 16)); ccd_codeByte (rr_init_req->ded_tlli.b_ded_tlli, 16, 8, (UBYTE)(rr_data->gprs_data.tlli >> 8)); ccd_codeByte (rr_init_req->ded_tlli.b_ded_tlli, 24, 8, (UBYTE)rr_data->gprs_data.tlli); rr_init_req->chan_req_desc.or_ty = rr_data->gprs_data.p_chan_req_des.mo_mt; if (rr_init_req->chan_req_desc.or_ty) { rr_init_req->chan_req_desc.v_crd_prio = 1; rr_init_req->chan_req_desc.crd_prio = rr_data->gprs_data.p_chan_req_des.prio; rr_init_req->chan_req_desc.v_rlc_mode = 1; rr_init_req->chan_req_desc.rlc_mode = rr_data->gprs_data.p_chan_req_des.rlc_mode_req; rr_init_req->chan_req_desc.v_llc_fr_type = 1; rr_init_req->chan_req_desc.llc_fr_type = rr_data->gprs_data.p_chan_req_des.llc_type; rr_init_req->chan_req_desc.v_rbw = 1; rr_init_req->chan_req_desc.rbw = rr_data->gprs_data.p_chan_req_des.req_bwd; rr_init_req->chan_req_desc.v_rlc_c_oct = 1; rr_init_req->chan_req_desc.rlc_c_oct = rr_data->gprs_data.p_chan_req_des.rlc_octets; } rr_init_req->gprs_meas_res.c_val = rr_data->gprs_data.gprs_meas_results.c_value; rr_init_req->gprs_meas_res.rxqual = rr_data->gprs_data.gprs_meas_results.rxqual; rr_init_req->gprs_meas_res.sign_var = rr_data->gprs_data.gprs_meas_results.sign_var; for_dat_est_req_content (establish_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_stop_dcch_ind | +-----------------------------------------------------------------------------+ PURPOSE : inform GRR about failed layer 2 establishment. */ void dat_stop_dcch_ind (UBYTE stop_cause) { GET_INSTANCE_DATA; PALLOC(stop, RRGRR_STOP_DCCH_IND); TRACE_FUNCTION ("gprs_stop_dcch_ind()"); stop->stop_cause = stop_cause; /* we will do a CR anyway */ SET_STATE(STATE_GPRS, GPRS_ACTIVATED); PSENDX(GRR, stop); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_rrgrr_gprs_data_req | +-----------------------------------------------------------------------------+ PURPOSE : The primitive RRGRR_GPRS_DATA_REQ contains various parameters from GRR. Layer 1 is configured and some data are stored. */ void dat_rrgrr_gprs_data_req (T_RRGRR_GPRS_DATA_REQ *data_req) { GET_INSTANCE_DATA; /* * store parameter */ rr_data->gprs_data.tlli = data_req->tlli; rr_data->gprs_data.p_chan_req_des = data_req->p_chan_req_des; rr_data->gprs_data.gprs_meas_results = data_req->gprs_meas_results; rr_data->gprs_data.mac_req = data_req->mac_req; rr_data->gprs_data.cs_req = data_req->cs_req; rr_data->gprs_data.current_rai = data_req->rai; if(rr_data->gprs_data.ptmsi NEQ data_req->old_ptmsi OR rr_data->gprs_data.ptmsi2 NEQ data_req->new_ptmsi) { rr_data->gprs_data.ptmsi = data_req->old_ptmsi; rr_data->gprs_data.ptmsi2 = data_req->new_ptmsi; att_mph_identity_req (); } PFREE (data_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_data_ind | +-----------------------------------------------------------------------------+ PURPOSE : Send the primitive rrgrr_data_ind to GRR. This primitive indicates to the GRR that a CTRL Message on DCCH for RR was received. IN : frame_number OUT : rrgrr_data_ind */ void dat_rrgrr_data_ind (T_DL_DATA_IND* dl_data_ind) { USHORT soff,doff; PALLOC_SDU ( rrgrr_data_ind, RRGRR_DATA_IND, dl_data_ind->sdu.l_buf ); TRACE_EVENT ("dat_rrgrr_data_ind ()"); /* * compute byte offsets (soff,doff) into message streams, * assume that o_buf is multiple of 8 */ doff = (USHORT)(rrgrr_data_ind->sdu.o_buf / BITS_PER_BYTE); soff = (USHORT)( dl_data_ind->sdu.o_buf / BITS_PER_BYTE); memcpy ( &rrgrr_data_ind->sdu.buf[doff], & dl_data_ind->sdu.buf[soff], BYTELEN ( dl_data_ind->sdu.l_buf ) ); rrgrr_data_ind->fn = NOT_PRESENT_32BIT; PFREE ( dl_data_ind ); PSENDX (GRR, rrgrr_data_ind); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_rrgrr_data_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_DATA_REQ received from GRR. This primitive indicates to the RR to send a block on DCCH. IN : OUT : */ void dat_rrgrr_data_req (T_RRGRR_DATA_REQ *rrgrr_data_req) { GET_INSTANCE_DATA; TRACE_EVENT ("dat_rrgrr_data_req ()"); switch(GET_STATE(STATE_GPRS)) { case GPRS_DEDI_SDCCH: { PPASS (rrgrr_data_req, dl_data_req, DL_DATA_REQ); dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type); dat_vsd_bit_set ((T_L3_SDU *)&dl_data_req->sdu, SET_ONLY); for_dat_l3_data_req (dl_data_req); } break; default: break; } PFREE (rrgrr_data_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rgrr_suspend_dcch_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_SUSPEND_DCCH_REQ received from GRR. This primitive is used by GRR to order RR to stop the dedicated channel. It is only a trigger. IN : RRGRR-SUSPEND-DCCH-REQ OUT : DL-SUSPEND-REQ and MPH-DEDICATED-REQ */ void dat_rrgrr_suspend_dcch_req( T_RRGRR_SUSPEND_DCCH_REQ *suspend_dcch_req) { GET_INSTANCE_DATA; PALLOC (dedicated_req, MPH_DEDICATED_REQ); TRACE_EVENT ("dat_rrgrr_suspend_dcch_req ()"); for_suspend_layer_2(); memset (dedicated_req, 0, sizeof (T_MPH_DEDICATED_REQ)); dedicated_req->mod = MODE_PDCH_ASSIGN; PSENDX (PL, dedicated_req); SET_STATE (STATE_DAT, DAT_PDCH_ASS); PFREE (suspend_dcch_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_suspend_dcch_cnf | +-----------------------------------------------------------------------------+ PURPOSE : Create the primitive RRGRR_SUSPEND_DCCH_CNF and send it to GRR. As a response GRR will start the establishment of a TBF. IN : nothing OUT : RRGRR_SUSPEND_DCCH_CNF */ void dat_rrgrr_suspend_dcch_cnf( void ) { PALLOC (suspend_dcch_cnf, RRGRR_SUSPEND_DCCH_CNF); PSENDX (GRR, suspend_dcch_cnf); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_reconnect_dcch_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR-RECONNECT-DCCH-REQ received from GRR. This primitive is used by GRR during a PDCH Assignment procedure and RR Network Controlled Cell Change Order to order RR to continue with the dedicated channel. IN : T-RRGRR-RECONNECT-DCCH-REQ OUT : DL-DATA-REQ(u-assign-fail) or MPH_DEDICATED_FAIL_REQ */ void dat_rrgrr_reconnect_dcch_req (T_RRGRR_RECONNECT_DCCH_REQ *reconnect_dcch_req) { GET_INSTANCE_DATA; TRACE_EVENT ("dat_rrgrr_reconnect_dcch_req()"); if ( rr_data->gprs_data.tbf_est EQ TBF_EST_PDCH OR rr_data->gprs_data.tbf_est EQ TBF_EST_CCO ) { UBYTE next_state; if ( rr_data->gprs_data.tbf_est EQ TBF_EST_PDCH ) next_state = DAT_PDCH_ASS_3; else next_state = DAT_CCO_3; /* * The dedicated channel has been suspended at PL and DL. * However RR could not established the TBF. */ rr_data->gprs_data.tbf_est = TBF_EST_NONE; dat_code_mph_old_chan_req(); rr_data->gprs_data.reconn_cause = reconnect_dcch_req->reconn_cause; rr_data->gprs_data.cco_need_reconnect_cnf = TRUE; SET_STATE (STATE_DAT, next_state); } else /* Any other state assuming D_PDCH_ASS_CMD has been sent to GRR. GRR cannot evaluate the message. */ { MCAST (u_assign_fail, U_ASSIGN_FAIL); PALLOC_MSG (dl_data_req, DL_DATA_REQ, U_ASSIGN_FAIL); /* * set channel type and SAPI */ dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type); u_assign_fail->msg_type = U_ASSIGN_FAIL; u_assign_fail->rr_cause = reconnect_dcch_req->reconn_cause; for_dat_data_req (dl_data_req); dat_rrgrr_reconnect_dcch_cnf (RECONN_OK); } PFREE (reconnect_dcch_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_reconnect_dcch_cnf | +-----------------------------------------------------------------------------+ PURPOSE : Create the primitive RRGRR_RECONNECT_DCCH_CNF and send it to GRR. This indicates the outcome of the Reconnection procedure to GRR. IN : nothing OUT : RRGRR-RECONNECT-DCCH-CNF */ void dat_rrgrr_reconnect_dcch_cnf( UBYTE reconn_state ) { PALLOC (reconnect_dcch_cnf, RRGRR_RECONNECT_DCCH_CNF); TRACE_EVENT ("dat_rrgrr_reconnect_dcch_cnf()"); reconnect_dcch_cnf->reconn_state = reconn_state; PSENDX (GRR, reconnect_dcch_cnf); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rgrr_resumed_tbf_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR-RESUMED-TBF-REQ received from GRR. This primitive is used by GRR to order RR to indicate the successful outcome of a TBF establishment at GRR. This is applicable during PDCH Assignment and RR Network Contolled Cell Change Order. IN : RRGRR-RESUMED-TBF-REQ OUT : MPH-IDLE-REQ and DL-RELEASE-REQ */ void dat_rrgrr_resumed_tbf_req( T_RRGRR_RESUMED_TBF_REQ *resumed_tbf_req ) { GET_INSTANCE_DATA; TRACE_EVENT ("dat_rrgrr_resumed_tbf_req ()"); if ( rr_data->gprs_data.tbf_est EQ TBF_EST_PDCH OR rr_data->gprs_data.tbf_est EQ TBF_EST_CCO ) { PALLOC (dl_release_req, DL_RELEASE_REQ); rr_data->gprs_data.tbf_est = TBF_EST_NONE; att_build_idle_req(SC_INDEX, MODE_PACKET_TRANSFER); /* * Note that also during a Cell Change Order the states DAT_PDCH* are used. */ SET_STATE (STATE_GPRS, GPRS_PTM_BCCH); SET_STATE (STATE_DAT, DAT_PDCH_ASS_2); dat_code_prr_channel (&dl_release_req->ch_type, &dl_release_req->sapi, rr_data->sc_data.chan_desc.chan_type); dl_release_req->mode = DL_NORMAL_RELEASE; PSENDX (DL, dl_release_req); } PFREE (resumed_tbf_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_resumed_tbf_cnf | +-----------------------------------------------------------------------------+ PURPOSE : Create a primitive RGRR_RESUMED_TBF_CNF and send it to GRR. This indicates the successful outcome of the release of the DCCH which was in use before the TBF was established. IN : nothing OUT : RGRR-RESUMED-TBF-CNF */ void dat_rrgrr_resumed_tbf_cnf( void ) { GET_INSTANCE_DATA; PALLOC (rrgrr_resumed_tbf_cnf, RRGRR_RESUMED_TBF_CNF); TRACE_EVENT ("dat_rrgrr_resumed_tbf_cnf ()"); SET_STATE(STATE_GPRS, GPRS_PTM_BCCH); SET_STATE(STATE_DAT, DAT_IDLE); SET_STATE(STATE_ATT, ATT_IDLE); PSENDX (GRR, rrgrr_resumed_tbf_cnf); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_change_order | +-----------------------------------------------------------------------------+ PURPOSE : Handle the message RR Network Controlled Cell Change Order. IN : DL-DATA-IND OUT : RRGRR-DATA-IND */ void dat_rrgrr_change_order (T_DL_DATA_IND *dl_data_ind, T_D_CHANGE_ORDER *d_change_order) { GET_INSTANCE_DATA; for_check_cell_descr (&d_change_order->cell_desc); /* check if the BCCH is ok */ if ( rr_data->ms_data.error.cs EQ 0 ) /* '0' indicates successful message decoding */ { T_cell_desc *cell_desc; for_suspend_layer_2(); if ( rr_data->gprs_data.dl_data_ind NEQ NULL ) { PFREE ( rr_data->gprs_data.dl_data_ind ); } rr_data->gprs_data.dl_data_ind = dl_data_ind; dat_att_null(); cs_set_all(); cell_desc = &d_change_order->cell_desc; rr_data->gprs_data.bsic = (UBYTE)(( cell_desc->ncc << 3 ) + cell_desc->bcc); rr_data->gprs_data.arfcn = (USHORT)(( cell_desc->bcch_arfcn_hi << 8 ) + cell_desc->bcch_arfcn_lo); TIMERSTOP(T_DEDICATED_MODE); rr_data->mode_after_dedi = MODE_CELL_CHANGE_ORDER; att_stop_dedicated(); } else { MCAST (handov_fail, U_HANDOV_FAIL); PALLOC_MSG (dl_data_req, DL_DATA_REQ, U_HANDOV_FAIL); handov_fail->msg_type = U_HANDOV_FAIL; handov_fail->rr_cause = RRC_PROT_UNSPECIFIED; dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type); for_dat_data_req (dl_data_req); PFREE ( dl_data_ind ); } } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_check_packet_access | +-----------------------------------------------------------------------------+ PURPOSE : change state from conn. establishment to dedicated IN : OUT : */ BOOL dat_check_packet_access(void) { GET_INSTANCE_DATA; if(GET_STATE(STATE_GPRS) EQ GPRS_PAM_BCCH) { SET_STATE(STATE_GPRS, GPRS_DEDI_SDCCH); return TRUE; } else return FALSE; } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_ask_paging_ind | +-----------------------------------------------------------------------------+ PURPOSE : Ask GRR if paging should be processed. Answer will come in RRGRR_RR_EST_RSP primitive */ void dat_ask_paging_ind (T_MPH_PAGING_IND *pag_ind) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dat_ask_paging_ind ()"); rr_data->gprs_data.pag_dat.id_type = pag_ind->identity_type; rr_data->gprs_data.pag_dat.chan_need = pag_ind->channel_needed; rr_data->start_cell_reselection = FALSE; TRACE_EVENT_P1("start_cell_reselection %d", rr_data->start_cell_reselection); /* ask GRR if paging should be processed */ dat_rrgrr_rr_est_ind (); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_ask_paging_ind_pa_only | +-----------------------------------------------------------------------------+ PURPOSE : Ask GRR if paging should be processed. Answer will come in RRGRR_RR_EST_RSP primitive. Only applicable in state GPRS_PA. */ void dat_ask_paging_ind_pa_only (T_MPH_PAGING_IND *pag_ind) { GET_INSTANCE_DATA; if ( GET_STATE(STATE_GPRS) EQ GPRS_PAM_BCCH AND pag_ind->channel_needed NEQ CN_PACKET ) dat_ask_paging_ind ( pag_ind ); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_rr_est_ind | +-----------------------------------------------------------------------------+ PURPOSE : Send the primitive rrgrr_est_ind to GRR. This primitive indicates to the GRR that an RR connection establishment was received from the network via paging. It is only a trigger. IN : OUT : rrgrr_rr_est_ind */ static void dat_rrgrr_rr_est_ind (void) { PALLOC ( rrgrr_est_ind, RRGRR_RR_EST_IND ); TRACE_EVENT ("dat_rrgrr_est_ind ()"); PSENDX (GRR, rrgrr_est_ind); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_rr_est_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_RR_EST_REQ received from GRR. This primitive indicates to the RR a RR connection establishment was received on paging channel (PCCCH or PACCH). RR has to start a RR connection as if it has received a connection establishment on CCCH. IN : OUT : */ void dat_rrgrr_rr_est_req (T_RRGRR_RR_EST_REQ *est_req) { GET_INSTANCE_DATA; TRACE_EVENT ("dat_rrgrr_rr_est_req ()"); switch(GET_STATE(STATE_GPRS)) { case GPRS_PTM_BCCH: case GPRS_PAM_BCCH: case GPRS_PTM_PBCCH: case GPRS_PAM_PBCCH: case GPRS_PIM_PBCCH: rr_data->gprs_data.gprs_suspend = est_req->susp_req; rr_data->gprs_data.gprs_resump = GPRS_RESUMPTION_ACK; if(est_req->non_gprs.v_non_gprs) { handle_non_gprs_param(&est_req->non_gprs); } switch(GET_STATE(STATE_GPRS)) { case GPRS_PIM_BCCH: case GPRS_PAM_BCCH: case GPRS_PTM_BCCH: SET_STATE(STATE_GPRS, GPRS_SUSPENDED_BCCH); break; case GPRS_PIM_PBCCH: case GPRS_PAM_PBCCH: case GPRS_PTM_PBCCH: SET_STATE(STATE_GPRS, GPRS_SUSPENDED_PBCCH); break; default: break; } dat_begin_start_immediate_assign (est_req->ident_type, est_req->ch_needed); break; default: break; } PFREE (est_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : handle_non_gprs_param | +-----------------------------------------------------------------------------+ PURPOSE : Processes RGRR_RR_EST_REQ parameters received from GRR. IN : Non GPRS parameter structure of the RRGRR_RR_EST_REQ primitive. OUT : */ static void handle_non_gprs_param(T_non_gprs* non_gprs) { GET_INSTANCE_DATA; rr_data->nc_data[SC_INDEX].control_descr.att = non_gprs->att; rr_data->nc_data[SC_INDEX].control_descr.bs_ag_blks_res = non_gprs->bs_ag_blks_res; rr_data->nc_data[SC_INDEX].control_descr.ccch_conf = non_gprs->ccch_conf; rr_data->nc_data[SC_INDEX].control_descr.bs_pa_mfrms = non_gprs->bs_pa_mfrms; rr_data->nc_data[SC_INDEX].rach.max_retrans = non_gprs->max_retrans; rr_data->nc_data[SC_INDEX].rach.tx_integer = non_gprs->tx_integer; rr_data->nc_data[SC_INDEX].select_para.ms_txpwr_max_cch = non_gprs->gprs_ms_txpwr_max_cch; rr_data->nc_data[SC_INDEX].select_para.neci = non_gprs->neci; rr_data->sc_data.cd.cell_options.pow_ctrl = non_gprs->pwrc; if(non_gprs->dtx EQ 2) rr_data->sc_data.cd.dtx = DTX_NOT_USED; else rr_data->sc_data.cd.dtx = DTX_USED; rr_data->sc_data.cd.dtx_half = rr_data->sc_data.cd.dtx_full = rr_data->sc_data.cd.dtx; rr_data->sc_data.cd.cell_options.rlt = non_gprs->radio_link_timeout; if(non_gprs->ec) rr_data->nc_data[SC_INDEX].rach.ac &= 0x0400; if(non_gprs->v_T3212) rr_data->nc_data[SC_INDEX].control_descr.t3212 = non_gprs->T3212; #ifdef REL99 /*Copy Early Classmark Sending Control flag received in PSI2 by GRR*/ rr_data->nc_data[SC_INDEX].c2_par.ecsc = non_gprs->ecsc; #endif } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_rr_est_rsp | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_RR_EST_RSP received from GRR. This primitive indicates to the RR whether an establishment of RR connection is allowed or not. This primitive is an answer to the RRGRR_RR_EST_IND primitive. IN : OUT : */ void dat_rrgrr_rr_est_rsp (T_RRGRR_RR_EST_RSP *est_rsp) { GET_INSTANCE_DATA; TRACE_EVENT ("dat_rrgrr_rr_est_rsp ()"); rr_data->start_cell_reselection = TRUE; TRACE_EVENT_P1("start_cell_reselection %d", rr_data->start_cell_reselection); /* establishment allowed */ if (est_rsp->rr_est) { rr_data->gprs_data.gprs_suspend = est_rsp->susp_req; rr_data->gprs_data.gprs_resump = GPRS_RESUMPTION_ACK; switch(GET_STATE(STATE_GPRS)) { case GPRS_PIM_BCCH: case GPRS_PAM_BCCH: case GPRS_PTM_BCCH: SET_STATE(STATE_GPRS, GPRS_SUSPENDED_BCCH); break; case GPRS_PIM_PBCCH: case GPRS_PAM_PBCCH: case GPRS_PTM_PBCCH: SET_STATE(STATE_GPRS, GPRS_SUSPENDED_PBCCH); break; default: break; } dat_begin_start_immediate_assign (rr_data->gprs_data.pag_dat.id_type, rr_data->gprs_data.pag_dat.chan_need); } rr_data->gprs_data.pag_dat.id_type = 0; rr_data->gprs_data.pag_dat.chan_need = 0; PFREE (est_rsp); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_gprs_suspend_req | +-----------------------------------------------------------------------------+ PURPOSE : Builds GPRS suspension request message. IN : OUT : */ void dat_gprs_suspend_req (void) { GET_INSTANCE_DATA; if(rr_data->gprs_data.gprs_suspend) { /* * building of the GPRS Suspension Request message */ MCAST (susp_req, U_GPRS_SUSP_REQ); PALLOC_MSG (dl_data_req, DL_DATA_REQ, U_GPRS_SUSP_REQ); /* * set channel type and SAPI for layer 2 */ dat_code_prr_channel (&dl_data_req->ch_type, &dl_data_req->sapi, rr_data->sc_data.chan_desc.chan_type); susp_req->msg_type = U_GPRS_SUSP_REQ; /* * store tlli independent from the used binary format */ susp_req->ded_tlli.l_ded_tlli = 32; susp_req->ded_tlli.o_ded_tlli = 0; ccd_codeByte (susp_req->ded_tlli.b_ded_tlli, 0, 8, (UBYTE)(rr_data->gprs_data.tlli >> 24)); ccd_codeByte (susp_req->ded_tlli.b_ded_tlli, 8, 8, (UBYTE)(rr_data->gprs_data.tlli >> 16)); ccd_codeByte (susp_req->ded_tlli.b_ded_tlli, 16, 8, (UBYTE)(rr_data->gprs_data.tlli >> 8)); ccd_codeByte (susp_req->ded_tlli.b_ded_tlli, 24, 8, (UBYTE) rr_data->gprs_data.tlli); switch(rr_data->ms_data.establish_cause) { case ESTCS_SERV_REQ_BY_MM: susp_req->susp_cause = SUSP_C_LU; break; case ESTCS_EMRG_CAL: case ESTCS_CAL_REEST: case ESTCS_MOB_ORIG_SPCH_CAL_BY_CC: case ESTCS_MOB_ORIG_DATA_CAL_BY_CC: case ESTCS_MOB_ORIG_DATA_CAL_BY_CC_HR_SUFF: case ESTCS_PAGING: susp_req->susp_cause = SUSP_C_CALL; break; case ESTCS_MOB_ORIG_CAL_BY_SS_SMS: susp_req->susp_cause = SUSP_C_SMS; /* SUSP_C_SS */ break; default: break; } memcpy(susp_req->rout_area_id.mcc,rr_data->gprs_data.current_rai.plmn.mcc, SIZE_MCC); memcpy(susp_req->rout_area_id.mnc,rr_data->gprs_data.current_rai.plmn.mnc, SIZE_MNC); if (susp_req->rout_area_id.mnc[2] EQ 0x0f) susp_req->rout_area_id.c_mnc = 2; else susp_req->rout_area_id.c_mnc = SIZE_MNC; susp_req->rout_area_id.rac = rr_data->gprs_data.current_rai.rac; susp_req->rout_area_id.lac = rr_data->gprs_data.current_rai.lac; rr_data->gprs_data.gprs_resump = GPRS_RESUMPTION_NOT_ACK; /* * send to layer 2 */ for_dat_data_req (dl_data_req); } } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : gprs_rrgrr_stop_task | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_STOP_TASK_REQ received from GRR. This primitive indicates to the RR that a specific task on RR side should be stopped. IN : OUT : */ void gprs_rrgrr_stop_task( T_RRGRR_STOP_TASK_REQ *stop_task) { GET_INSTANCE_DATA; TRACE_EVENT ("gprs_rrgrr_stop_task"); switch(stop_task->ctrl_task) { case RR_TASK_1: { switch(GET_STATE(STATE_GPRS)) { case GPRS_PAM_BCCH: rr_data->start_cell_reselection = TRUE; TRACE_EVENT_P1("start_cell_reselection %d", rr_data->start_cell_reselection); if(stop_task->task.v_stop_ccch NEQ INVALID_MSG) { att_build_idle_req(SC_INDEX, MODE_PACKET_TRANSFER); TIMERSTOP(T3126); SET_STATE(STATE_GPRS, GPRS_PTM_BCCH); SET_STATE(STATE_DAT, DAT_IDLE); SET_STATE(STATE_ATT, ATT_IDLE); { PALLOC(stop_cnf, RRGRR_STOP_TASK_CNF); PSENDX(GRR, stop_cnf); } } break; case GPRS_PIM_BCCH: if(stop_task->task.v_stop_ccch NEQ INVALID_MSG) { /* * XXX we still have a problem if the search terminates * and we want to select to the HPLMN cell just in the moment * after we have sent the IA_DOWNLINK_IND but before receiving * the STOP_TASK_REQ. But we should not stop the search * before, because maybe the IA_DOWNLINK was not actually * addressing us. */ if (rr_data->ms_data.req_mm_service EQ FUNC_NET_SRCH_BY_MMI) { /*inform MM and stop everything*/ /* * send Please Retry to the MMI */ rr_data->sc_data.found_entries = 0; att_code_rr_abort_ind (RRCS_ABORT_CEL_SEL_FAIL); } att_build_idle_req(SC_INDEX, MODE_PACKET_TRANSFER); SET_STATE(STATE_GPRS, GPRS_PTM_BCCH); SET_STATE(STATE_DAT, DAT_IDLE); SET_STATE(STATE_ATT, ATT_IDLE); { PALLOC(stop_cnf, RRGRR_STOP_TASK_CNF); PSENDX(GRR, stop_cnf); } } /* * If a search is active in idle this is set to false * it is also set to false on sending the IA_DL to GRR * If the IA_DL is for us we abort the search and enter TBF * that means that the start_cr flag is always set to true * If the IA_DL is not for us then the start_cr flag should only be * reset if no search is ongoing. */ if (rr_data->ms_data.req_mm_service NEQ FUNC_NET_SRCH_BY_MMI) { rr_data->start_cell_reselection = TRUE; TRACE_EVENT_P1("start_cell_reselection %d", rr_data->start_cell_reselection); } break; default: break; } } break; case LEAVE_PIM_PBCCH: { TRACE_EVENT("LEAVE PIM"); /* stop CCCH reading if running */ /* SET_STATE(STATE_DAT, DAT_NULL); avoid reacting to crossing prim */ /* stop CBCH reading if running */ /* stop active ncell procedures */ if (rr_data->ms_data.req_mm_service EQ FUNC_NET_SRCH_BY_MMI) { /*inform MM and stop everything*/ /* * send Please Retry to the MMI */ rr_data->sc_data.found_entries = 0; att_code_rr_abort_ind (RRCS_ABORT_CEL_SEL_FAIL); } { PALLOC(mph_mon_ctrl_req, MPH_MON_CTRL_REQ ); mph_mon_ctrl_req->action = LEAVING_PIM_PBCCH; PSENDX (PL, mph_mon_ctrl_req); } { PALLOC(stop_cnf, RRGRR_STOP_TASK_CNF); PSENDX(GRR, stop_cnf); } /* XXX stop PLMN scan ? */ } break; case LEAVE_PAM_PBCCH: { PALLOC(mph_mon_ctrl_req, MPH_MON_CTRL_REQ ); TRACE_EVENT("LEAVE PAM"); mph_mon_ctrl_req->action = LEAVING_PAM_PBCCH; PSENDX (PL, mph_mon_ctrl_req); { PALLOC(stop_cnf, RRGRR_STOP_TASK_CNF); PSENDX(GRR, stop_cnf); } } break; case LEAVE_PTM_PBCCH: { PALLOC(mph_mon_ctrl_req, MPH_MON_CTRL_REQ ); TRACE_EVENT("LEAVE PTM"); mph_mon_ctrl_req->action = LEAVING_PTM_PBCCH; PSENDX (PL, mph_mon_ctrl_req); { PALLOC(stop_cnf, RRGRR_STOP_TASK_CNF); PSENDX(GRR, stop_cnf); } } break; default: break; } PFREE(stop_task); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_rrgrr_activate_req | +-----------------------------------------------------------------------------+ PURPOSE : Process the primitive RRGRR_ACTIVATE_REQ received from GRR. This primitive activates RR. RR acts as if the MS is only GSM service mobile. Monitor CCCH and BCCH. IN : OUT : */ void dat_rrgrr_activate_req (T_RRGRR_ACTIVATE_REQ *act_req) { GET_INSTANCE_DATA; TRACE_EVENT ("dat_rrgrr_activate_req ()"); rr_data->gprs_data.gprs_suspend = act_req->susp_req; rr_data->gprs_data.rac = act_req->rac; rr_data->gprs_data.gprs_resump = GPRS_RESUMPTION_ACK; switch(GET_STATE(STATE_GPRS)) { case GPRS_PIM_PBCCH: case GPRS_PAM_PBCCH: case GPRS_PTM_PBCCH: /* we need the parameters from GRR to make * a MO call */ if(act_req->non_gprs.v_non_gprs) { handle_non_gprs_param(&act_req->non_gprs); } break; case GPRS_PIM_BCCH: /* nothing to do, just wait for MM to start with RR_ESTABLISH_REQ */ /*SET_STATE(STATE_GPRS, GPRS_SUSPENDED_BCCH); do this on RR_ESTABLISH_REQ */ break; case GPRS_PAM_BCCH: case GPRS_PTM_BCCH: /* * abort procedures we are doing for GPRS * and go back to idle mode to wait for the * RR_ESTABLISH_REQ */ rr_data->gprs_data.page_mode = PAG_MODE_DEFAULT; #ifdef REL99 #else att_return_to_idle(); #endif SET_STATE(STATE_GPRS, GPRS_PIM_BCCH); #ifdef REL99 att_return_to_idle(); #endif break; default: break; } PFREE (act_req); } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_set_gprs_resump | +-----------------------------------------------------------------------------+ PURPOSE : Sets stored GPRS resumption value to the RR_RELEASE_IND primitive to send. IN : Pointer to RR_RELEASE_IND primitive. OUT : */ void dat_set_gprs_resump (T_RR_RELEASE_IND* rr_release_ind) { GET_INSTANCE_DATA; rr_release_ind->gprs_resumption = rr_data->gprs_data.gprs_resump; } /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_gprs_set_suspended | +-----------------------------------------------------------------------------+ PURPOSE : Sets state to GPRS_SUSPENDED_PBCCH or GPRS_SUSPENDED_BCCH IN : OUT : */ void dat_gprs_set_suspended(void) { GET_INSTANCE_DATA; switch(GET_STATE(STATE_GPRS)) { case GPRS_PIM_PBCCH: case GPRS_PAM_PBCCH: case GPRS_PTM_PBCCH: SET_STATE(STATE_GPRS, GPRS_SUSPENDED_PBCCH); break; case GPRS_PIM_BCCH: case GPRS_PAM_BCCH: case GPRS_PTM_BCCH: SET_STATE(STATE_GPRS, GPRS_SUSPENDED_BCCH); break; default: break; } } #ifdef REL99 /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (6147) MODULE : RR_GPRS | | STATE : code ROUTINE : dat_gprs_set_suspended | +-----------------------------------------------------------------------------+ PURPOSE : Sets state to GPRS_SUSPENDED_PBCCH or GPRS_SUSPENDED_BCCH IN : OUT : */ BOOL dat_gprs_cell_in_ptm(void) { GET_INSTANCE_DATA; switch(GET_STATE(STATE_GPRS)) { case GPRS_PTM_PBCCH: case GPRS_PTM_BCCH: return TRUE; default: return FALSE; } } #endif /*===========================================================================*/ /* * L O C A L S */ /*===========================================================================*/ /* +-----------------------------------------------------------------------------+ | PROJECT : GSM-GPRS (??6147) MODULE : RR_GPRS | | STATE : code ROUTINE : get_r_bit | +-----------------------------------------------------------------------------+ PURPOSE : R-bit for the IA-prims IN : access counter OUT : r_bit */ static UBYTE get_r_bit (void) { GET_INSTANCE_DATA; UBYTE r_bit; switch (rr_data->ms_data.access_counter) { case 0: r_bit = NOT_PRESENT_8BIT; break; case 1: r_bit = CHAN_REQ_SENT_ONCE; break; default: r_bit = CHAN_REQ_SENT_MORE; break; } return r_bit; } #endif /* GPRS */ #endif /* RR_DATG_C */