FreeCalypso > hg > fc-selenite
view src/g23m-fad/rlp/rlp_kers.c @ 1:d393cd9bb723
src/g23m-*: initial import from Magnetite
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 15 Jul 2018 04:40:46 +0000 |
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/* +----------------------------------------------------------------------------- | Project : CSD (8411) | Modul : Rlp_kers.c +----------------------------------------------------------------------------- | 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 defines the functions for processing | of incomming signals for the component | Radio Link Protocol of the base station +----------------------------------------------------------------------------- */ #ifndef RLP_KERS_C #define RLP_KERS_C #endif #define ENTITY_RLP /*==== INCLUDES ===================================================*/ #include <string.h> #include "typedefs.h" #include "vsi.h" #include "macdef.h" #include "custom.h" #include "gsm.h" #include "cus_rlp.h" #include "prim.h" #include "tok.h" #include "rlp.h" /*==== CONST =======================================================*/ /*==== TYPES =======================================================*/ /*==== VAR EXPORT ==================================================*/ /*==== VAR LOCAL ===================================================*/ /*==== FUNCTIONS ===================================================*/ /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_sabm_ind +------------------------------------------------------------------------------ | Description :Process signal SIG_SABM_IND received from process rcv. | | Parameters : - | | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_sabm_ind(void) { TRACE_FUNCTION ("sig_rcv_ker_sabm_ind()"); TRACE_EVENT ("SABM rcvd"); switch (GET_STATE (KER)) { case RLP_ADM_AND_DETACHED: rlp_data->ker.DM_State = IS_SEND; rlp_data->ker.DM_FBit = 1; break; case RLP_ADM_AND_ATTACHED: { PALLOC (rlp_connect_ind, RLP_CONNECT_IND); PSENDX (L2R, rlp_connect_ind); rlp_data->ker.DM_State = IS_IDLE; SET_STATE (KER, RLP_PENDING_CONNECT_IND); break; } case RLP_PENDING_CONNECT_REQ: { PALLOC (rlp_connect_cnf, RLP_CONNECT_CNF); TIMERSTOP (TT_HANDLE); rlp_connect_cnf->ack_flg = RLP_ACK; PSENDX (L2R, rlp_connect_cnf); rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = 1; ker_init_link_vars (); SET_STATE (KER, RLP_CONNECTION_ESTABLISHED); break; } case RLP_CONNECTION_ESTABLISHED: case RLP_PENDING_REMAP_REQ: case RLP_REMAP_DATA: { PALLOC (rlp_reset_ind, RLP_RESET_IND); TIMERSTOP (TT_HANDLE); TIMERSTOP (TRCVR_HANDLE); ker_reset_all_t_rcvs (); PSENDX (L2R, rlp_reset_ind); ker_deinit_link_vars (); SET_STATE (KER, RLP_PENDING_RESET_IND); break; } case RLP_PENDING_RESET_REQ: { PALLOC (rlp_reset_cnf, RLP_RESET_CNF); TIMERSTOP (TT_HANDLE); PSENDX (L2R, rlp_reset_cnf); rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = 1; ker_init_link_vars (); SET_STATE (KER, RLP_CONNECTION_ESTABLISHED); break; } } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_disc_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_DISC_IND received from process rcv. | | Parameters : pFBit - | | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_disc_ind(T_BIT pFBit) { TRACE_FUNCTION ("sig_rcv_ker_disc_ind()"); TRACE_EVENT ("DISC rcvd"); switch (GET_STATE (KER)) { case RLP_ADM_AND_DETACHED: rlp_data->ker.DM_State = IS_SEND; rlp_data->ker.DM_FBit = pFBit; break; case RLP_ADM_AND_ATTACHED: rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = pFBit; rlp_data->ker.DM_State = IS_IDLE; break; case RLP_PENDING_CONNECT_REQ: case RLP_PENDING_CONNECT_IND: { PALLOC (rlp_disc_ind, RLP_DISC_IND); TIMERSTOP (TT_HANDLE); PSENDX (L2R, rlp_disc_ind); rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = pFBit; SET_STATE (KER, RLP_ADM_AND_ATTACHED); break; } case RLP_CONNECTION_ESTABLISHED: case RLP_PENDING_REMAP_REQ: case RLP_REMAP_DATA: { PALLOC (rlp_disc_ind, RLP_DISC_IND); TIMERSTOP (TT_HANDLE); TIMERSTOP (TRCVR_HANDLE); ker_reset_all_t_rcvs (); PSENDX (L2R, rlp_disc_ind); rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = pFBit; ker_deinit_link_vars (); SET_STATE (KER, RLP_ADM_AND_ATTACHED); break; } case RLP_DISCONNECT_INITIATED: { rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = pFBit; TIMERSTOP (TT_HANDLE); if (rlp_data->ker.DISC_Ind) { PALLOC (rlp_disc_ind, RLP_DISC_IND); PSENDX (L2R, rlp_disc_ind); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } else { PALLOC (rlp_disc_cnf, RLP_DISC_CNF); PSENDX (L2R, rlp_disc_cnf); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } break; } case RLP_PENDING_RESET_REQ: { PALLOC (rlp_disc_ind, RLP_DISC_IND); TIMERSTOP (TT_HANDLE); PSENDX (L2R, rlp_disc_ind); rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = pFBit; SET_STATE (KER, RLP_ADM_AND_ATTACHED); break; } case RLP_PENDING_RESET_IND: { PALLOC (rlp_disc_ind, RLP_DISC_IND); PSENDX (L2R, rlp_disc_ind); rlp_data->ker.UA_State = IS_SEND; rlp_data->ker.UA_FBit = pFBit; SET_STATE (KER, RLP_ADM_AND_ATTACHED); break; } } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_ua_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_UA_IND received from process rcv. | | Parameters : pFBit - | | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_ua_ind(T_BIT pFBit) { TRACE_FUNCTION ("sig_rcv_ker_ua_ind()"); TRACE_EVENT ("UA rcvd"); switch (GET_STATE (KER)) { case RLP_PENDING_CONNECT_REQ: switch (rlp_data->ker.SABM_State) { case ISW_WAIT: if (pFBit EQ 1) { PALLOC (rlp_connect_cnf, RLP_CONNECT_CNF); TIMERSTOP (TT_HANDLE); rlp_connect_cnf->ack_flg = RLP_ACK; PSENDX (L2R, rlp_connect_cnf); ker_init_link_vars (); SET_STATE (KER, RLP_CONNECTION_ESTABLISHED); } break; default: break; } break; case RLP_DISCONNECT_INITIATED: switch (rlp_data->ker.DISC_State) { case ISW_WAIT: if (pFBit EQ rlp_data->ker.DISC_PBit) { if (rlp_data->ker.DISC_PBit EQ 1) rlp_data->ker.Poll_xchg = IW_IDLE; TIMERSTOP (TT_HANDLE); if (rlp_data->ker.DISC_Ind) { PALLOC (rlp_disc_ind, RLP_DISC_IND); PSENDX (L2R, rlp_disc_ind); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } else { PALLOC (rlp_disc_cnf, RLP_DISC_CNF); PSENDX (L2R, rlp_disc_cnf); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } } break; } break; case RLP_PENDING_RESET_REQ: switch (rlp_data->ker.SABM_State) { case ISW_WAIT: if (pFBit EQ 1) { PALLOC (rlp_reset_cnf, RLP_RESET_CNF); TIMERSTOP (TT_HANDLE); PSENDX (L2R, rlp_reset_cnf); ker_init_link_vars (); SET_STATE (KER, RLP_CONNECTION_ESTABLISHED); } break; } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_dm_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_DM_IND received from process rcv. | | Parameters : pFBit - | | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_dm_ind(T_BIT pFBit) { TRACE_FUNCTION ("sig_rcv_ker_dm_ind()"); TRACE_EVENT ("DM rcvd"); switch (GET_STATE (KER)) { case RLP_PENDING_CONNECT_REQ: switch (rlp_data->ker.SABM_State) { case ISW_WAIT: if (pFBit EQ 1) { PALLOC (rlp_connect_cnf, RLP_CONNECT_CNF); TIMERSTOP (TT_HANDLE); rlp_data->ker.Poll_xchg = IW_IDLE; rlp_connect_cnf->ack_flg = RLP_NAK; PSENDX (L2R, rlp_connect_cnf); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } break; } break; case RLP_DISCONNECT_INITIATED: switch (rlp_data->ker.DISC_State) { case ISW_WAIT: if (pFBit EQ rlp_data->ker.DISC_PBit) { if (rlp_data->ker.DISC_PBit EQ 1) rlp_data->ker.Poll_xchg = IW_IDLE; TIMERSTOP (TT_HANDLE); if (rlp_data->ker.DISC_Ind) { PALLOC (rlp_disc_ind, RLP_DISC_IND); PSENDX (L2R, rlp_disc_ind); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } else { PALLOC (rlp_disc_cnf, RLP_DISC_CNF); PSENDX (L2R, rlp_disc_cnf); SET_STATE (KER, RLP_ADM_AND_ATTACHED); } } break; } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rr_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_RR_IND received from process rcv. | | Parameters : cBit | pFBit | nr | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_rr_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_rr_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: rlp_data->ker.SF = SF_RR; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending for acknowledgement ? */ if (sbm_frame_in_range (nr)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#2"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rnr_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_RNR_IND received from process rcv. | | Parameters : cBit | pFBit | nr | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_rnr_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_rnr_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: rlp_data->ker.SF = SF_RNR; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending * for acknowledgement ?? */ if (sbm_frame_in_range (nr)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#3"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rej_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_REJ_IND received from process rcv. | | Parameters : cBit | pFBit | nr | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_rej_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_rej_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: rlp_data->ker.SF = SF_REJ; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending for acknowledgement ? */ if (sbm_frame_in_range (nr)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#4"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_srej_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_SREJ_IND received from process rcv. | | Parameters :cBit - | pFBit - | nr - | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_srej_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_srej_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: rlp_data->ker.SF = SF_SREJ; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending * for acknowledgement ?? */ if (sbm_frame_in_range (nr)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#5"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rr_i_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_RR_I_IND received from process rcv. | | Parameters : cBit - | pFBit - | nr - | ns - | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_rr_i_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr, T_FRAME_NUM ns ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_rr_i_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: rlp_data->ker.SF = SF_RR; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending * for acknowledgement ?? */ if (sbm_frame_in_range (nr)) if (!ker_i_handler (ns)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#6"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rnr_i_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_RNR_I_IND received from process rcv. | | Parameters : cBit | pFBit | nr | ns | | Return : +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_rnr_i_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr, T_FRAME_NUM ns ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_rnr_i_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: /* * processing for state RLP_CONNECTION_ESTABLISHED */ rlp_data->ker.SF = SF_RNR; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending * for acknowledgement ?? */ if (sbm_frame_in_range (nr)) if (!ker_i_handler (ns)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#7"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rej_i_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_REJ_I_IND received from process rcv. | | | Parameters : cBit - | pFBit - | nr - | : ns - | Return +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_rej_i_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr, T_FRAME_NUM ns ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_rej_i_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: /* * processing for state RLP_CONNECTION_ESTABLISHED */ rlp_data->ker.SF = SF_REJ; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending * for acknowledgement ?? */ if (sbm_frame_in_range (nr)) if (!ker_i_handler (ns)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#8"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_srej_i_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_SREJ_I_IND received from process rcv. | | Parameters : cBit - | pFBit - | nr - | ns - | | Return : +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_srej_i_ind ( T_BIT cBit, T_BIT pFBit, T_FRAME_NUM nr, T_FRAME_NUM ns ) { BOOL retransError; TRACE_FUNCTION ("sig_rcv_ker_srej_i_ind()"); switch (GET_STATE (KER)) { case RLP_CONNECTION_ESTABLISHED: /* * processing for state RLP_CONNECTION_ESTABLISHED */ rlp_data->ker.SF = SF_SREJ; /* * unsolicited F_Bit ? */ if (!(pFBit EQ 1 AND cBit EQ 0 AND rlp_data->ker.Poll_State NEQ ISW_WAIT)) { /* * NR within range of send frames pending * for acknowledgement ?? */ if (sbm_frame_in_range (nr)) if (!ker_i_handler (ns)) { ker_s_handler (cBit, pFBit, rlp_data->ker.SF, nr, &retransError); if (retransError) { SET_STATE(KER, RLP_DISCONNECT_INITIATED); TRACE_EVENT("#9"); } } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_ui_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_UI_IND received from process rcv. | | Parameters : cBit - | pFBit - | | Return : - +------------------------------------------------------------------------------ */ /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_xid_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_XID_IND received from process rcv. | | Parameters : cBit | pFBit | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_xid_ind ( T_BIT cBit, T_BIT pFBit ) { TRACE_FUNCTION ("sig_rcv_ker_xid_ind()"); switch (GET_STATE (KER)) { case RLP_ADM_AND_DETACHED: /* * processing for state RLP_ADM_AND_DETACHED */ break; default: /* * processing for all other kernel states */ if (cBit EQ 1) { switch (GET_STATE(KERXID_C)) { case ISW_WAIT: { rlp_data->ker.Poll_xchg = IW_IDLE; SET_STATE(KERXID_C, ISW_IDLE); /* TIMERSTOP (rlp_data->txid_handle); TIMERSTART ( TXID, rlp_data->ker.T1, rlp_data->txid_handle ); */ } break; default: { PALLOC (rlp_xid_ind, RLP_XID_IND); ker_get_xid_data ( rbm_get_current_frame () + HEADER_LEN, 0, rlp_xid_ind, FALSE, &rlp_data->ker.XID_R_Used_Flg ); PSENDX (L2R, rlp_xid_ind); ker_put_xid_data ( rlp_data->ker.XID_R_Frame + HEADER_LEN, 0, rlp_data->ker.XID_R_Used_Flg, FALSE, rlp_data->ker.Rlp_Vers, rlp_data->ker.K_iwf_ms, rlp_data->ker.K_ms_iwf, rlp_data->ker.T1, rlp_data->ker.N2, rlp_data->ker.T2, rlp_data->ker.Pt, rlp_data->ker.P0, rlp_data->ker.P1, rlp_data->ker.P2 ); rlp_data->ker.XID_R_State = IS_SEND; rlp_data->ker.XID_R_FBit = pFBit; SET_STATE(KERXID_C, ISW_IDLE); } break; } } else { switch (GET_STATE(KERXID_C)) { case ISW_WAIT: if (pFBit EQ 1) { PALLOC (rlp_xid_ind, RLP_XID_IND); rlp_data->ker.Poll_xchg = IW_IDLE; TIMERSTOP (TXID_HANDLE); ker_get_xid_data ( rbm_get_current_frame () + HEADER_LEN, 0, rlp_xid_ind, TRUE, &rlp_data->ker.XID_C_Used_Flg ); PSENDX (L2R, rlp_xid_ind); SET_STATE(KERXID_C, ISW_IDLE); } break; default: break; } } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_test_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_TEST_IND received from process rcv. | | Parameters : cBit - | pFBit - | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_test_ind ( T_BIT cBit, T_BIT pFBit ) { TRACE_FUNCTION ("sig_rcv_ker_test_ind()"); switch (GET_STATE (KER)) { case RLP_ADM_AND_DETACHED: /* * no processing for state RLP_ADM_AND_DETACHED */ break; default: /* * processing for all other kernel states */ if (cBit EQ 1) { rlp_data->ker.TEST_R_State = IS_SEND; rlp_data->ker.TEST_R_FBit = pFBit; memcpy ( rlp_data->ker.TEST_R_Frame, rbm_get_current_frame (), rlp_data->ker.FrameSize ); } break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_remap_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_REMAP_IND received from process rcv. | | Parameters : - | | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_remap_ind ( void ) { T_RBM_FRAMEPTR remapFrame; TRACE_FUNCTION ("sig_rcv_ker_remap_ind()"); switch (GET_STATE (KER)) { case RLP_PENDING_REMAP_REQ: { PALLOC (rlp_xid_ind, RLP_XID_IND); remapFrame = rbm_get_current_frame(); rlp_data->ker.RemapNr = (*(T_RLP_FRAME_LONG *)remapFrame)[HEADER_LEN] >> 2; sbm_ack_upto_n (rlp_data->ker.RemapNr); ker_get_xid_data ( remapFrame + HEADER_LEN, 2, rlp_xid_ind, TRUE, &rlp_data->ker.XID_C_Used_Flg ); PSENDX (L2R, rlp_xid_ind); if (!ker_send_remap_data ()) { PALLOC (rlp_remap_cnf, RLP_REMAP_CNF); sbm_reset_after_remap ( rlp_data->ker.FrameSize, rlp_data->ker.RemapNr ); PSENDX (L2R, rlp_remap_cnf); SET_STATE (KER, RLP_CONNECTION_ESTABLISHED); break; } SET_STATE (KER, RLP_REMAP_DATA); break; } default: break; } } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_ready_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_READY_IND received from process rcv. | | Parameters : - | | | Return : - +------------------------------------------------------------------------------ */ GLOBAL void sig_rcv_ker_ready_ind(void) { /* * FreeCalypso: when we tried to compile this code from TCS3.2 * in our TCS211-mimicking Magnetite environment, we hit a BUG * in TI's compiler, or more precisely, the compiler version used * in TCS211: compiling this C module would fail as the compiler * was producing bad assembly which the asm step rejected. * Analysis of the generated asm showed that the switch table * and all of the switch case code was omitted, but the reference * to the switch table was still there, hence asm failing. * * The following four volatile char initialized but otherwise unused * automatic variables constitute the workaround we have added to * get this C module past the broken compiler. This workaround was * inspired by the disassembly of the rlp_kers.obj binary object * from the TCS211 blob library: it appears that TI had applied a * very similar workaround on their end to get this code past the * same broken compiler. The generated code we get is not exactly * the same as what's in the blob, so our recreation of TI's compiler * workaround is probably inexact, but it does the job of getting * this C module past the compiler. */ volatile char bug1 = 'A'; volatile char bug2 = 'B'; volatile char bug3 = 'C'; volatile char bug4 = 0; TRACE_FUNCTION ("sig_rcv_ker_ready_ind()"); switch (GET_STATE (KER)) { case RLP_ADM_AND_DETACHED: switch (rlp_data->ker.DM_State) { case IS_IDLE: sig_ker_snd_null_req (); break; case IS_SEND: sig_ker_snd_dm_req (rlp_data->ker.DM_FBit); rlp_data->ker.DM_State = IS_IDLE; break; } break; case RLP_ADM_AND_ATTACHED: if (!ker_send_txu()) { switch(rlp_data->ker.DM_State) { case IS_IDLE: switch (rlp_data->ker.UA_State) { case IS_IDLE: sig_ker_snd_null_req (); break; case IS_SEND: sig_ker_snd_ua_req (rlp_data->ker.UA_FBit); rlp_data->ker.UA_State = IS_IDLE; break; } break; case IS_SEND: sig_ker_snd_dm_req(rlp_data->ker.DM_FBit); rlp_data->ker.DM_State = IS_IDLE; break; } } break; case RLP_PENDING_CONNECT_REQ: if (!ker_send_txu()) { switch (rlp_data->ker.SABM_State) { case ISW_SEND: switch (rlp_data->ker.Poll_xchg) { case IW_IDLE: sig_ker_snd_sabm_req (); rlp_data->ker.SABM_State = ISW_WAIT; rlp_data->ker.SABM_Count++; rlp_data->ker.Poll_xchg = IW_WAIT; TIMERSTART(TT_HANDLE, rlp_data->ker.T1); break; default: sig_ker_snd_null_req (); break; } break; default: sig_ker_snd_null_req (); break; } } break; case RLP_PENDING_CONNECT_IND: if (!ker_send_txu()) sig_ker_snd_null_req (); break; case RLP_CONNECTION_ESTABLISHED: if (!ker_send_txu()) ker_send_data (); break; case RLP_DISCONNECT_INITIATED: if (!ker_send_txu()) { switch (rlp_data->ker.DISC_State) { case ISW_WAIT: sig_ker_snd_null_req (); break; default: if (rlp_data->ker.DISC_PBit EQ 1 AND rlp_data->ker.Poll_xchg EQ IW_WAIT) { sig_ker_snd_null_req (); } else { sig_ker_snd_disc_req (rlp_data->ker.DISC_PBit); if (rlp_data->ker.DISC_PBit EQ 1) rlp_data->ker.Poll_xchg = IW_WAIT; rlp_data->ker.DISC_State = ISW_WAIT; rlp_data->ker.DISC_Count++; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } break; } } break; case RLP_PENDING_RESET_REQ: if (!ker_send_txu()) { switch (rlp_data->ker.SABM_State) { case ISW_WAIT: sig_ker_snd_null_req (); break; case ISW_SEND: switch (rlp_data->ker.Poll_xchg) { case IW_IDLE: sig_ker_snd_sabm_req (); rlp_data->ker.SABM_State = ISW_WAIT; rlp_data->ker.SABM_Count++; rlp_data->ker.Poll_xchg = IW_WAIT; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); break; default: sig_ker_snd_null_req (); break; } break; } } break; case RLP_PENDING_RESET_IND: if (!ker_send_txu()) sig_ker_snd_null_req (); break; case RLP_PENDING_REMAP_REQ: if (!ker_send_txu()) { if (rlp_data->ker.Poll_xchg EQ IW_IDLE) { TIMERSTART(TT_HANDLE, rlp_data->ker.T1 * rlp_data->ker.N2); rlp_data->ker.Poll_xchg = IW_WAIT; } sig_ker_snd_remap_req (&rlp_data->ker.REMAP_FrameDesc); } break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_interpret_rlp_frame | +--------------------------------------------------------------------+ PURPOSE : decodes the elements from the given RLP frame */ LOCAL void ker_interpret_rlp_frame ( T_RLP_FRAMEPTR frame, T_PDU_TYPE *pduType, T_BIT *cBit, T_BIT *pFBit, T_FRAME_NUM *nr, T_FRAME_NUM *ns, BOOL *crcOk ) { #ifdef TRACE_INTERPRETED_RLP_FRAME T_RLP_DEBUG *deb = &rlp_data->deb; deb->idx=0; deb->trc_buf[deb->idx++] = ((crcOk NEQ NULL) ? 'D' : 'U'); deb->trc_buf[deb->idx++] = ':'; #endif #ifdef _SIMULATION_ TRACE_FUNCTION ("ker_interpret_rlp_frame()"); #endif *cBit = (T_BIT) (frame[0] & 1); *ns = (T_FRAME_NUM) ((frame[0] >> 3) | ((frame[1] & 1)<<5)); *pFBit = (T_BIT) ((frame[1] & 2)>>1); switch (*ns) { case 62: /* S-Frame */ { T_SF sFrame; *nr = (T_FRAME_NUM) ((frame[1]>>2) & 0x3f); #ifdef TRACE_INTERPRETED_RLP_FRAME deb->trc_buf[deb->idx++] = 'S'; deb->trc_buf[deb->idx++] = 'r'; DEC_BYTE (*nr, &deb->trc_buf[deb->idx]); deb->idx+=3; deb->trc_buf[deb->idx++] = ' '; #endif sFrame = (T_SF) ((frame[0]>>1) & 0x03); /* * maybe optimize with a table!! */ switch (sFrame) { case SF_RR: *pduType = PDU_RR; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "RR ",3); #endif break; case SF_RNR: *pduType = PDU_RNR; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "RNR",3); #endif break; case SF_REJ: *pduType = PDU_REJ; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "REJ",3); #endif break; case SF_SREJ: *pduType = PDU_SREJ; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "SRJ",3); #endif break; default: #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "***",3); #endif break; } #ifdef TRACE_INTERPRETED_RLP_FRAME deb->idx+=3; #endif break; } case 63: /* U-Frame */ { T_UF uFrame; uFrame = (T_UF) ((frame[1]>>2) & 0x1f); #ifdef TRACE_INTERPRETED_RLP_FRAME deb->trc_buf[deb->idx++] = 'U'; deb->trc_buf[deb->idx++] = ' '; #endif /* * maybe optimize with a table!! */ switch (uFrame) { case UF_UI: *pduType = PDU_UI; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "UI ",4); #endif break; case UF_DM: *pduType = PDU_DM; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "DM ",4); #endif break; case UF_SABM: *pduType = PDU_SABM; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "SABM",4); #endif break; case UF_DISC: *pduType = PDU_DISC; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "DISC",4); #endif break; case UF_UA: *pduType = PDU_UA; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "UA ",4); #endif break; case UF_NULL: *pduType = PDU_NULL; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "NULL",4); #endif break; case UF_XID: *pduType = PDU_XID; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "XID ",4); #endif break; case UF_TEST: *pduType = PDU_TEST; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "TEST",4); #endif break; case UF_REMAP: *pduType = PDU_REMAP; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "RMAP",4); #endif break; default: *pduType = PDU_INVALID; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "****",4); #endif break; } *nr = 0; #ifdef TRACE_INTERPRETED_RLP_FRAME deb->idx += 4; #endif break; } default: /* I+S-Frame */ { T_SF sFrame; *nr = (T_FRAME_NUM) ((frame[1]>>2) & 0x3f); sFrame = (T_SF) ((frame[0]>>1) & 0x03); #ifdef TRACE_INTERPRETED_RLP_FRAME deb->trc_buf[deb->idx++] = 'I'; deb->trc_buf[deb->idx++] = 'r'; DEC_BYTE (*nr, &deb->trc_buf[deb->idx]); deb->idx+=3; deb->trc_buf[deb->idx++] = 's'; DEC_BYTE (*ns, &deb->trc_buf[deb->idx]); deb->idx+=3; deb->trc_buf[deb->idx++] = ' '; #endif /* * maybe optimize with a table!! */ switch (sFrame) { case SF_RR: *pduType = PDU_RR_I; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "RR ",3); #endif break; case SF_RNR: *pduType = PDU_RNR_I; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "RNR",3); #endif break; case SF_REJ: *pduType = PDU_REJ_I; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "REJ",3); #endif break; case SF_SREJ: *pduType = PDU_SREJ_I; #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "SRJ",3); #endif break; default: #ifdef TRACE_INTERPRETED_RLP_FRAME memcpy(&deb->trc_buf[deb->idx], "***",3); #endif break; } #ifdef TRACE_INTERPRETED_RLP_FRAME deb->idx += 3; #endif break; } } #ifdef TRACE_INTERPRETED_RLP_FRAME if ( (*pduType NEQ PDU_NULL) AND ( (crcOk EQ NULL AND rlp_data->uplink_frame_trace) OR (crcOk NEQ NULL AND rlp_data->downlink_frame_trace) ) ) { deb->trc_buf[deb->idx++] = ' '; deb->trc_buf[deb->idx++] = ((*cBit) ? 'C' : 'R'); deb->trc_buf[deb->idx++] = ((*cBit) ? 'P' : 'F'); deb->trc_buf[deb->idx++] = ' '; HEX_BYTE (frame[1], &deb->trc_buf[deb->idx]); deb->idx+=2; HEX_BYTE (frame[0], &deb->trc_buf[deb->idx]); deb->idx+=2; deb->trc_buf[deb->idx++] = ' '; HEX_BYTE (frame[2], &deb->trc_buf[deb->idx]); deb->idx+=2; HEX_BYTE (frame[3], &deb->trc_buf[deb->idx]); deb->idx+=2; deb->trc_buf[deb->idx] = '\0'; TRACE_EVENT (deb->trc_buf); } #endif /* * no CRC checking at this point. Checking is performed at * Layer 1, so only correct frames are forwared. */ #ifdef TRACE_INTERPRETED_RLP_FRAME if (crcOk NEQ NULL) #endif *crcOk = TRUE; } #ifdef _SIMULATION_ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_get_frame_from_sdu | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL T_RLP_FRAMEPTR ker_get_frame_from_sdu(T_sdu *sdu) { TRACE_FUNCTION ("ker_get_frame_from_sdu()"); return sdu->buf+(sdu->o_buf>>3); } #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_analyse_prim | +--------------------------------------------------------------------+ PURPOSE : */ #ifdef _SIMULATION_ LOCAL void ker_analyse_prim(T_RA_DATA_IND *ra_data_ind) #else LOCAL void ker_analyse_prim(void) #endif { T_RLP_FRAMEPTR frame; T_PDU_TYPE pduType; T_BIT cBit; T_BIT pFBit; T_FRAME_NUM nr, ns; BOOL crcOk; TRACE_FUNCTION ("ker_analyse_prim()"); #ifdef _SIMULATION_ PACCESS (ra_data_ind); frame = ker_get_frame_from_sdu (&ra_data_ind->sdu); rbm_store_frame (frame); PFREE (ra_data_ind); #endif frame = rbm_get_current_frame (); /* TRACE_DATA_RLP_FRAME(frame); */ ker_interpret_rlp_frame ( frame, &pduType, &cBit, &pFBit, &nr, &ns, &crcOk ); sig_ker_rcv_rawdata_res ( pduType, cBit, pFBit, nr, ns, crcOk ); } /* +------------------------------------------------------------------------------ | Function : sig_rcv_ker_rawdata_ind +------------------------------------------------------------------------------ | Description : Process signal SIG_RAWDATA_IND received from process rcv. | | Parameters : ra_data_ind - | | | Return : - +------------------------------------------------------------------------------ */ #ifdef _SIMULATION_ GLOBAL void sig_rcv_ker_rawdata_ind(T_RA_DATA_IND *ra_data_ind) #else GLOBAL void sig_rcv_ker_rawdata_ind(void) #endif { TRACE_FUNCTION ("sig_rcv_ker_rawdata_ind()"); #ifdef _SIMULATION_ ker_analyse_prim(ra_data_ind); #else ker_analyse_prim(); #endif }