FreeCalypso > hg > fc-selenite
view src/g23m-fad/rlp/rlp_kerf.c @ 145:d606941f1286
tms470/makefile-frags/link-steps: emit target name and source version
into the firmware version ID string
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Wed, 06 Feb 2019 22:22:39 +0000 |
parents | d393cd9bb723 |
children |
line wrap: on
line source
/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : RLP_KERF +----------------------------------------------------------------------------- | 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 procedures and functions for | the component Radio Link Protocol of the mobile station +----------------------------------------------------------------------------- */ #ifndef RLP_KERF_C #define RLP_KERF_C #endif #define ENTITY_RLP /*==== INCLUDES ===================================================*/ #include <string.h> #include "typedefs.h" #include "pconst.cdg" #include "vsi.h" #include "macdef.h" #include "pconst.cdg" #include "custom.h" #include "gsm.h" #include "cnf_rlp.h" #include "mon_rlp.h" #include "prim.h" #include "pei.h" #include "tok.h" #include "ccdapi.h" #include "rlp.h" /*==== CONST =======================================================*/ /*==== TYPES =======================================================*/ /*==== VAR EXPORT ==================================================*/ /*==== VAR LOCAL ===================================================*/ /*==== FUNCTIONS ===================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_initTRCVS | +--------------------------------------------------------------------+ PURPOSE : Initialise the TCRVS table */ LOCAL void ker_initTRCVS(T_RCVS_ENTRY *rcvsTab) { T_FRAME_NUM lookUp; TRACE_FUNCTION ("ker_initTRCVS()"); for (lookUp = 0; lookUp < MAX_SREJ_COUNT; lookUp++) { rcvsTab[lookUp].isFree = TRUE; rcvsTab[lookUp].slot = INVALID_IDX; rcvsTab[lookUp].trcvs_running = FALSE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_init | +--------------------------------------------------------------------+ PURPOSE : initialise the rlp data for the kernel process */ GLOBAL void ker_init(void) { TRACE_FUNCTION ("ker_init()"); rlp_data->tul_rcv_running = FALSE; ker_initTRCVS(rlp_data->ker.rcvsTab); rlp_data->ker.DM_State = IS_IDLE; rlp_data->ker.DM_FBit = 0; rbm_reset(&rlp_data->rbm); INIT_STATE(KER, RLP_ADM_AND_DETACHED); INIT_STATE(KERXID_C, ISW_IDLE); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_get_xid_data | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_get_xid_data ( T_RLP_FRAMEDATA *raw_data, UBYTE index, T_RLP_XID_IND *xid_data, BOOL ms_is_initiator, ULONG *used_flags ) { UBYTE p_type; UBYTE length; UBYTE comp_request; #ifdef _SIMULATION_ USHORT rcvd; char trc_buf[80]; UBYTE i, idx; strcpy (trc_buf, "get XID "); idx = strlen(trc_buf); #endif TRACE_FUNCTION ("ker_get_xid_data()"); rlp_data->ker.Rlp_Vers = DEF_RLP_VERS; rlp_data->ker.K_ms_iwf = DEF_K_MS_IWF; rlp_data->ker.K_iwf_ms = DEF_K_IWF_MS; rlp_data->ker.T1 = rlp_data->ker.Def_T1; rlp_data->ker.T2 = DEF_T2; rlp_data->ker.N2 = DEF_N2; rlp_data->ker.Pt = DEF_PT; rlp_data->ker.P0 = DEF_P0; rlp_data->ker.P1 = DEF_P1; rlp_data->ker.P2 = DEF_P2; *used_flags = 0L; while (index < rlp_data->ker.FrameSize - HEADER_LEN - TRAILER_LEN) { length = raw_data[index] % 16; p_type = (raw_data[index] - length) / 16; if (p_type EQ XID_T_NULL) break; #ifdef _SIMULATION_ for (i = 0; i < length+1; i++) { /*lint -e661 : Possible access of out-of-bounds pointer (1 beyond end of data) by operator 'unary * */ HEX_BYTE (raw_data[index+i], &trc_buf[idx]); /*lint +e661 */ idx+=2; } #endif switch (p_type) { case XID_T_T1: rlp_data->ker.T1 = TIME_EXT2INT(raw_data[index+1]); #ifdef _SIMULATION_ rcvd = rlp_data->ker.T1; #endif if (rlp_data->ker.T1 < rlp_data->ker.Orig_T1) rlp_data->ker.T1 = rlp_data->ker.Orig_T1; *used_flags |= UF_SET_T1; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID T1 : %d -> %d", rcvd, rlp_data->ker.T1); #endif break; case XID_T_RLP_VERS: rlp_data->ker.Rlp_Vers = raw_data[index+1]; #ifdef _SIMULATION_ rcvd = rlp_data->ker.Rlp_Vers; #endif if (rlp_data->ker.Rlp_Vers > ORIG_RLP_VERS) rlp_data->ker.Rlp_Vers = ORIG_RLP_VERS; *used_flags |= UF_SET_RLP_VERS; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID RLPV : %d -> %d", rcvd, rlp_data->ker.Rlp_Vers); #endif break; case XID_T_T2: rlp_data->ker.T2 = TIME_EXT2INT(raw_data[index+1]); #ifdef _SIMULATION_ rcvd = rlp_data->ker.T2; #endif if (rlp_data->ker.T2 < rlp_data->ker.Orig_T2) rlp_data->ker.T2 = rlp_data->ker.Orig_T2; *used_flags |= UF_SET_T2; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID T2 : %d -> %d", rcvd, rlp_data->ker.T2); #endif break; case XID_T_K_MS_IWF: rlp_data->ker.K_ms_iwf = raw_data[index+1]; #ifdef _SIMULATION_ rcvd = rlp_data->ker.K_ms_iwf; #endif if (rlp_data->ker.K_ms_iwf > rlp_data->ker.Orig_K_ms_iwf) rlp_data->ker.K_ms_iwf = rlp_data->ker.Orig_K_ms_iwf; if (rlp_data->ker.Connected) sbm_set_wind_size (rlp_data->ker.K_ms_iwf); *used_flags |= UF_SET_K_MS_IWF; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID KMI : %d -> %d", rcvd, rlp_data->ker.K_ms_iwf); #endif break; case XID_T_N2: rlp_data->ker.N2 = raw_data[index+1]; #ifdef _SIMULATION_ rcvd = rlp_data->ker.N2; #endif if (rlp_data->ker.N2 < rlp_data->ker.Orig_N2) rlp_data->ker.N2 = rlp_data->ker.Orig_N2; sbm_set_retrans (rlp_data->ker.N2); *used_flags |= UF_SET_N2; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID N2 : %d -> %d", rcvd, rlp_data->ker.N2); #endif break; case XID_T_K_IWF_MS: rlp_data->ker.K_iwf_ms = raw_data[index+1]; #ifdef _SIMULATION_ rcvd = rlp_data->ker.K_iwf_ms; #endif if (rlp_data->ker.K_iwf_ms > rlp_data->ker.Orig_K_iwf_ms) rlp_data->ker.K_iwf_ms = rlp_data->ker.Orig_K_iwf_ms; if (rlp_data->ker.Connected) if (rbm_set_wind_size (rlp_data->ker.K_iwf_ms)) { ker_reset_all_t_rcvs (); srm_reset(); } *used_flags |= UF_SET_K_IWF_MS; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID KIM : %d -> %d", rcvd, rlp_data->ker.K_iwf_ms); #endif break; case XID_T_COMPR: comp_request = raw_data[index+1] % 16; rlp_data->ker.Pt = (raw_data[index+1] - comp_request) / 16; #ifdef _SIMULATION_ TRACE_EVENT_P1("RCVD XID PT : %d", rlp_data->ker.Pt); #endif switch (comp_request) { case 0: rlp_data->ker.P0 = RLP_COMP_DIR_NONE; break; case 1: if (ms_is_initiator) { if (rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_RECEIVE OR rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_NONE) rlp_data->ker.P0 = RLP_COMP_DIR_NONE; else rlp_data->ker.P0 = RLP_COMP_DIR_TRANSMIT; } else { if (rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_TRANSMIT OR rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_NONE) rlp_data->ker.P0 = RLP_COMP_DIR_NONE; else rlp_data->ker.P0 = RLP_COMP_DIR_RECEIVE; } break; case 2: if (ms_is_initiator) { if (rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_TRANSMIT OR rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_NONE) rlp_data->ker.P0 = RLP_COMP_DIR_NONE; else rlp_data->ker.P0 = RLP_COMP_DIR_RECEIVE; } else { if (rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_RECEIVE OR rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_NONE) rlp_data->ker.P0 = RLP_COMP_DIR_NONE; else rlp_data->ker.P0 = RLP_COMP_DIR_TRANSMIT; } break; case 3: rlp_data->ker.P0 = rlp_data->ker.Orig_P0; break; } #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID P0: %d -> %d", comp_request, rlp_data->ker.P0); #endif rlp_data->ker.P1 = (raw_data[index+3] * 256) + raw_data[index+2]; #ifdef _SIMULATION_ rcvd = rlp_data->ker.P1; #endif if (rlp_data->ker.P1 > rlp_data->ker.Orig_P1) rlp_data->ker.P1 = rlp_data->ker.Orig_P1; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID P1: %d -> %d", rcvd, rlp_data->ker.P1); #endif rlp_data->ker.P2 = raw_data[index+4]; #ifdef _SIMULATION_ rcvd = rlp_data->ker.P2; #endif if (rlp_data->ker.P2 > rlp_data->ker.Orig_P2) rlp_data->ker.P2 = rlp_data->ker.Orig_P2; *used_flags |= UF_SET_COMPR; #ifdef _SIMULATION_ TRACE_EVENT_P2("RCVD XID P2 : %d -> %d", rcvd, rlp_data->ker.P2); #endif break; } index += (length+1); } xid_data->rlp_vers = rlp_data->ker.Rlp_Vers; xid_data->k_ms_iwf = rlp_data->ker.K_ms_iwf; xid_data->k_iwf_ms = rlp_data->ker.K_iwf_ms; xid_data->t1 = TIME_INT2EXT (rlp_data->ker.T1); xid_data->t2 = TIME_INT2EXT (rlp_data->ker.T2); xid_data->n2 = rlp_data->ker.N2; xid_data->pt = rlp_data->ker.Pt; xid_data->p0 = rlp_data->ker.P0; xid_data->p1 = rlp_data->ker.P1; xid_data->p2 = rlp_data->ker.P2; #ifdef _SIMULATION_ trc_buf[idx] = '\0'; TRACE_EVENT (trc_buf); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_put_xid_data | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_put_xid_data ( T_RLP_FRAMEPTR l_Data, /* buffer for data */ UBYTE index, /* start index in buffer */ ULONG l_uf, /* valid parameters */ BOOL ms_is_initiator, /* MS is sending XID*/ UBYTE l_rlp_version, /* negotiated vers. */ T_FRAME_NUM l_k_iwf_ms, /* winSize ms->iwf */ T_FRAME_NUM l_k_ms_iwf, /* winSize iwf->ms */ USHORT l_t1, /* ack timer value */ UBYTE l_n2, /* num restransmiss */ USHORT l_t2, /* reply delay */ UBYTE l_pt, /* type data compr. */ UBYTE l_p0, /* v42bis comp. req */ USHORT l_p1, /* num possible code*/ UBYTE l_p2 /* max encod. strlen*/ ) { register ULONG i; TRACE_FUNCTION ("ker_put_xid_data()"); i = index; if (((l_uf & UF_SET_RLP_VERS) EQ 0) OR (l_rlp_version < 1)) { l_uf &= ~UF_SET_COMPR; } if (l_uf & UF_SET_RLP_VERS) { l_Data[i] = (XID_T_RLP_VERS * 16) + XID_L_RLP_VERS; l_Data[i+1] = l_rlp_version; #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID RLPV : %d", l_rlp_version); #endif i += (XID_L_RLP_VERS + 1); } if (l_uf & UF_SET_K_IWF_MS) { l_Data[i] = (XID_T_K_IWF_MS * 16) + XID_L_K_IWF_MS; l_Data[i+1] = (UBYTE) l_k_iwf_ms; #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID KIM : %d", l_k_iwf_ms); #endif i += (XID_L_K_IWF_MS + 1); } if (l_uf & UF_SET_K_MS_IWF) { l_Data[i] = (XID_T_K_MS_IWF * 16) + XID_L_K_MS_IWF; l_Data[i+1] = (UBYTE) l_k_ms_iwf; #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID KMI : %d", l_k_ms_iwf); #endif i += (XID_L_K_MS_IWF + 1); } if (l_uf & UF_SET_T1) { l_Data[i] = (XID_T_T1 * 16) + XID_L_T1; l_Data[i+1] = TIME_INT2EXT (l_t1); #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID T1 : %d", l_t1); #endif i += (XID_L_T1 + 1); } if (l_uf & UF_SET_N2) { l_Data[i] = (XID_T_N2 * 16) + XID_L_N2; l_Data[i+1] = l_n2; #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID N2 : %d", l_n2); #endif i += (XID_L_N2 + 1); } if (l_uf & UF_SET_T2) { l_Data[i] = (XID_T_T2 * 16) + XID_L_T2; l_Data[i+1] = TIME_INT2EXT (l_t2); #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID T2 : %d", l_t2); #endif i += (XID_L_T2 + 1); } if ( (l_uf & UF_SET_COMPR) AND !rlp_data->ker.Connected) { l_Data[i] = (XID_T_COMPR * 16) + XID_L_COMPR; switch (l_p0) { case RLP_COMP_DIR_NONE: l_Data[i+1] = l_pt * 16; break; case RLP_COMP_DIR_TRANSMIT: if (ms_is_initiator) l_Data[i+1] = (l_pt*16) + 1; else l_Data[i+1] = (l_pt*16) + 2; break; case RLP_COMP_DIR_RECEIVE: if (ms_is_initiator) l_Data[i+1] = (l_pt*16) + 2; else l_Data[i+1] = (l_pt*16) + 1; break; case RLP_COMP_DIR_BOTH: l_Data[i+1] = (l_pt*16) + 3; break; } l_Data[i+2] = (l_p1 % 256); l_Data[i+3] = (l_p1 / 256); l_Data[i+4] = l_p2; #ifdef _SIMULATION_ TRACE_EVENT_P1("SEND XID PT: %d", l_pt); TRACE_EVENT_P2("SEND XID P0: %d -> %d", l_p0, l_Data[i+1] % 4); TRACE_EVENT_P1("SEND XID P1: %d", l_p1); TRACE_EVENT_P1("SEND XID P2: %d", l_p2); #endif i += (XID_L_COMPR + 1); } #ifdef _SIMULATION_ { char trc_buf[80]; U8 j, k; strcpy (trc_buf, "put XID "); k = strlen(trc_buf); for (j = index; j < i; j++) { /*lint -e661 : Possible access of out-of-bounds pointer (1 beyond end of data) by operator 'unary * */ HEX_BYTE (l_Data[j], &trc_buf[k]); /*lint +e661 */ k += 2; } trc_buf[k] = '\0'; TRACE_EVENT (trc_buf); } #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_check_low_water | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_check_low_water(void) { TRACE_FUNCTION ("ker_check_low_water()"); if (sbm_space_in_buf () >= rlp_data->ker.FramesPerPrim) { if (rlp_data->ker.UL_Snd_State EQ IW_IDLE) { PALLOC (rlp_ready_ind, RLP_READY_IND); PSENDX (L2R, rlp_ready_ind); rlp_data->ker.UL_Snd_State = IW_WAIT; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_get_send_frame | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_get_send_frame ( T_FRAME_DESC *frameDesc, T_FRAME_NUM *frameNo, BOOL *frameFound ) { BOOL framesCouldBeSent; TRACE_FUNCTION ("ker_get_send_frame()"); if (rlp_data->ker.RRReady) { sbm_get_frame ( frameDesc, frameNo, &framesCouldBeSent, frameFound ); if (framesCouldBeSent) ker_check_low_water (); } else { /* * remote receiver can not accept data */ *frameFound = FALSE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_startTRCVS | +--------------------------------------------------------------------+ PURPOSE : Start the timer TRCVS for a slot */ LOCAL void ker_startTRCVS(T_FRAME_NUM slot) { T_FRAME_NUM lookUp; TRACE_FUNCTION ("ker_startTRCVS()"); for (lookUp = 0; lookUp < MAX_SREJ_COUNT; lookUp++) { if (rlp_data->ker.rcvsTab[lookUp].isFree) { rlp_data->ker.rcvsTab[lookUp].slot = slot; TIMERSTART(lookUp, rlp_data->ker.T1); rlp_data->ker.rcvsTab[lookUp].trcvs_running = TRUE; rlp_data->ker.rcvsTab[lookUp].isFree = FALSE; return; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_srej_sreji_cmd | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_send_srej_sreji_cmd(T_FRAME_NUM slot) { T_FRAME_DESC frameDesc; T_FRAME_NUM frame; BOOL frameFound; rlp_data->ker.DTX_SF = DTX_N; TRACE_FUNCTION ("ker_send_srej_sreji_cmd()"); if (rlp_data->ker.Poll_xchg NEQ IW_WAIT AND rlp_data->ker.Poll_State EQ ISW_SEND) { sig_ker_snd_srej_req (1, 1, slot); rbm_set_rslot_wait (slot); ker_startTRCVS (slot); srm_count (slot); rlp_data->ker.SREJ_Count++; rlp_data->ker.Poll_Count++; rlp_data->ker.Poll_State = ISW_WAIT; rlp_data->ker.Poll_xchg = IW_WAIT; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else { ker_get_send_frame (&frameDesc, &frame, &frameFound); if (frameFound) { sig_ker_snd_srej_i_req (1, 0, slot, frame, &frameDesc); rbm_set_rslot_wait (slot); ker_startTRCVS (slot); srm_count (slot); rlp_data->ker.SREJ_Count++; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else { sig_ker_snd_srej_req (1, 0, slot); rbm_set_rslot_wait (slot); ker_startTRCVS (slot); srm_count (slot); rlp_data->ker.SREJ_Count++; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_rej_reji_cmd | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_send_rej_reji_cmd ( T_FRAME_NUM vr ) { T_FRAME_DESC frameDesc; T_FRAME_NUM frame; BOOL frameFound; TRACE_FUNCTION ("ker_send_rej_reji_cmd()"); rlp_data->ker.DTX_SF = DTX_N; if (rlp_data->ker.Poll_xchg NEQ IW_WAIT AND rlp_data->ker.Poll_State EQ ISW_SEND) { sig_ker_snd_rej_req (1, 1, vr); rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.REJ_State = ISW_WAIT; TIMERSTART ( TRCVR_HANDLE, rlp_data->ker.T1 ); rlp_data->ker.Poll_Count++; rlp_data->ker.Poll_State = ISW_WAIT; rlp_data->ker.Poll_xchg = IW_WAIT; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else { ker_get_send_frame (&frameDesc, &frame, &frameFound); if (frameFound) { sig_ker_snd_rej_i_req (1, 0, vr, frame, &frameDesc); TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else sig_ker_snd_rej_req (1, 0, vr); TIMERSTART(TRCVR_HANDLE, rlp_data->ker.T1); rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.REJ_State = ISW_WAIT; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_rnr_rnri_cmd | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_send_rnr_rnri_cmd ( T_FRAME_NUM vr ) { T_FRAME_DESC frameDesc; T_FRAME_NUM frame; BOOL frameFound; TRACE_FUNCTION ("ker_send_rnr_rnri_cmd()"); if (rlp_data->ker.Poll_xchg NEQ IW_WAIT AND rlp_data->ker.Poll_State EQ ISW_SEND) { sig_ker_snd_rnr_req (1, 1, vr, 0); rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.Poll_Count++; rlp_data->ker.Poll_State = ISW_WAIT; rlp_data->ker.Poll_xchg = IW_WAIT; rlp_data->ker.DTX_SF = DTX_N; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else { ker_get_send_frame (&frameDesc, &frame, &frameFound); if (frameFound) { sig_ker_snd_rnr_i_req (1, 0, vr, frame, &frameDesc); rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.DTX_SF = DTX_N; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else { if (rlp_data->ker.Ackn_State EQ IS_IDLE AND rlp_data->ker.DTX_SF EQ DTX_RNR AND rlp_data->ker.DTX_VR EQ vr) { sig_ker_snd_rnr_req (1, 0, vr, 1); } else { sig_ker_snd_rnr_req (1, 0, vr, 0); rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.DTX_SF = DTX_RNR; rlp_data->ker.DTX_VR = vr; } } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_rr_rri_cmd | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_send_rr_rri_cmd ( T_FRAME_NUM vr ) { T_FRAME_DESC frameDesc; T_FRAME_NUM frame; BOOL frameFound; TRACE_FUNCTION ("ker_send_rr_rri_cmd()"); if (rlp_data->ker.Poll_xchg NEQ IW_WAIT AND rlp_data->ker.Poll_State EQ ISW_SEND) { #ifdef ENABLE_DTX sig_ker_snd_rr_req (1, 1, vr, 0); #else sig_ker_snd_rr_req (1, 1, vr); #endif rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.Poll_Count++; rlp_data->ker.Poll_State = ISW_WAIT; rlp_data->ker.Poll_xchg = IW_WAIT; rlp_data->ker.DTX_SF = DTX_N; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); } else { ker_get_send_frame (&frameDesc, &frame, &frameFound); if (frameFound) { sig_ker_snd_rr_i_req (1, 0, vr, frame, &frameDesc); rlp_data->ker.Ackn_State = IS_IDLE; TIMERSTART (TT_HANDLE, rlp_data->ker.T1); rlp_data->ker.DTX_SF = DTX_N; } else { if (rlp_data->ker.Ackn_State EQ IS_IDLE AND rlp_data->ker.DTX_SF EQ DTX_RR AND rlp_data->ker.DTX_VR EQ vr) { #ifdef ENABLE_DTX sig_ker_snd_rr_req (1, 0, vr, 1); #else sig_ker_snd_rr_req (1, 0, vr); #endif } else { #ifdef ENABLE_DTX sig_ker_snd_rr_req (1, 0, vr, 0); #else sig_ker_snd_rr_req (1, 0, vr); #endif rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.DTX_SF = DTX_RR; rlp_data->ker.DTX_VR = vr; } } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_rnr_rnri_resp | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_send_rnr_rnri_resp ( T_FRAME_NUM vr ) { TRACE_FUNCTION ("ker_send_rnr_rnri_resp()"); sig_ker_snd_rnr_req (0, 1, vr, 0); rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.Ackn_FBit = 0; rlp_data->ker.DTX_SF = DTX_N; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_rr_rri_resp | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_send_rr_rri_resp(T_FRAME_NUM vr) { TRACE_FUNCTION ("ker_send_rr_rri_resp()"); #ifdef ENABLE_DTX sig_ker_snd_rr_req (0, 1, vr, 0); #else sig_ker_snd_rr_req (0, 1, vr); #endif rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.Ackn_FBit = 0; rlp_data->ker.DTX_SF = DTX_N; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_copy_frame_to_sdu | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_copy_frame_to_sdu ( T_RLP_FRAMEPTR frame, T_sdu *sdu ) { TRACE_FUNCTION ("ker_copy_frame_to_sdu()"); memcpy (sdu->buf+(sdu->o_buf>>3), frame, rlp_data->ker.FrameSize); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_copy_sdu_to_frame | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_copy_sdu_to_frame(T_sdu *sdu, T_RLP_FRAMEPTR frame, USHORT n) { TRACE_FUNCTION ("ker_copy_sdu_to_frame()"); memcpy(frame, sdu->buf + (sdu->o_buf>>3) + (n * rlp_data->ker.FrameSize), rlp_data->ker.FrameSize); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_get_frame_desc | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_get_frame_desc ( T_RLP_FRAMEPTR frame, T_FRAME_DESC *frameDesc ) { TRACE_FUNCTION ("ker_get_frame_desc()"); frameDesc->Adr[0] = frame; frameDesc->Len[0] = rlp_data->ker.FrameSize; frameDesc->Adr[1] = (UBYTE *) NULL; frameDesc->Len[1] = 0; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_handle_prim_send | +--------------------------------------------------------------------+ PURPOSE : */ LOCAL void ker_handle_prim_send(void) { TRACE_FUNCTION ("ker_handle_prim_send()"); if (rlp_data->ker.UL_Rcv_State EQ IW_WAIT) { T_RLP_DATA_IND *rlp_data_ind; rbm_get_prim(&rlp_data_ind, &rlp_data->ker.LRReady, &rlp_data->ker.LRFull); PSENDX (L2R, rlp_data_ind); rlp_data->ker.UL_Rcv_State = IW_IDLE; TIMERSTOP (TUL_RCV_HANDLE); rlp_data->tul_rcv_running = FALSE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_stopTRCVS | +--------------------------------------------------------------------+ PURPOSE : search the rcvs entry for a given timer handle. The function stops the timer and returns the corresponding slot. */ LOCAL void ker_stopTRCVS ( T_FRAME_NUM slot ) { T_FRAME_NUM lookUp; TRACE_FUNCTION ("ker_stopTRCVS()"); for (lookUp = 0; lookUp < MAX_SREJ_COUNT; lookUp++) { if (!rlp_data->ker.rcvsTab[lookUp].isFree AND rlp_data->ker.rcvsTab[lookUp].slot EQ slot) { TIMERSTOP(lookUp); rlp_data->ker.rcvsTab[lookUp].trcvs_running = FALSE; rlp_data->ker.rcvsTab[lookUp].isFree = TRUE; return; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_i_handler | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL BOOL ker_i_handler(T_FRAME_NUM ns) { TRACE_FUNCTION ("ker_i_handler()"); if (rlp_data->ker.LRFull) { /* * ignore improper frame * cBit and fBit are not considered * at this stage */ return TRUE; } else { BOOL valid, expected, resetTimer, primToSend; T_FRAME_NUM count; rbm_ns_check (ns, &valid, &expected); /* * ns not within window? */ if (!valid) { /* * ignore improper frame */ return TRUE; } TIMERSTOP (TUL_RCV_HANDLE); /* optimisation trial... */ /* TRACE_EVENT("TIMERSTART TUL_RCV ker_i_handler"); */ TIMERSTART(TUL_RCV_HANDLE, rlp_data->ker.T_ul); if (expected) { rbm_accept_current_frame (); rbm_set_rslot_rcvd (ns, &resetTimer); if (resetTimer) { ker_stopTRCVS (ns); rlp_data->ker.SREJ_Count--; srm_clear (ns); } rbm_buffer_all_in_sequence_frames ( ns, &primToSend, &rlp_data->ker.LRReady, &rlp_data->ker.LRFull ); if (primToSend) ker_handle_prim_send (); rlp_data->ker.REJ_State = ISW_IDLE; TIMERSTOP (TRCVR_HANDLE); rlp_data->ker.Ackn_State = IS_SEND; return FALSE; } else { if (rlp_data->ker.REJ_State NEQ ISW_IDLE) return TRUE; /* * ignore out of sequence frames */ rbm_count_missing_i_frames (ns, &count); if (rlp_data->ker.SREJ_Count + (count-1) <=MAX_SREJ_COUNT) { rbm_move_current_frame (ns); rbm_set_rslot_rcvd (ns, &resetTimer); if (resetTimer) { ker_stopTRCVS (ns); rlp_data->ker.SREJ_Count--; srm_clear (ns); } rbm_mark_missing_i_frames_srej (ns); return FALSE; } else { rlp_data->ker.REJ_State = ISW_SEND; return FALSE; } } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_init_link_vars | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_init_link_vars ( void ) { TRACE_FUNCTION ("ker_init_link_vars()"); rlp_data->ker.UL_Rcv_State = IW_IDLE; rlp_data->ker.UL_Snd_State = IW_IDLE; rlp_data->ker.Ackn_State = IS_IDLE; rlp_data->ker.Poll_State = ISW_IDLE; rlp_data->ker.Poll_Count = 0; rlp_data->ker.Poll_xchg = IW_IDLE; rlp_data->ker.REJ_State = ISW_IDLE; rlp_data->ker.SABM_State = ISW_IDLE; rlp_data->ker.DISC_State = ISW_IDLE; rlp_data->ker.RRReady = TRUE; rlp_data->ker.LRReady = TRUE; rlp_data->ker.LRFull = FALSE; rlp_data->ker.SREJ_Count = 0; rlp_data->ker.Connected = TRUE; rlp_data->ker.DTX_SF = DTX_N; sbm_init ( rlp_data->ker.K_ms_iwf, rlp_data->ker.FrameSize, rlp_data->ker.N2 ); rbm_init ( rlp_data->ker.K_iwf_ms, rlp_data->ker.FrameSize, rlp_data->ker.FramesPerPrim ); srm_init (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_requestxid | +--------------------------------------------------------------------+ PURPOSE : This function is invoked to request an XID command. Some variables are set, so that with next RA_READY_IND a XID command is sent. */ LOCAL void ker_requestxid(void) { TRACE_FUNCTION ("ker_requestxid()"); SET_STATE(KERXID_C, ISW_SEND); rlp_data->ker.XID_Count = 0; rlp_data->ker.XID_C_PBit = 1; ker_put_xid_data ( rlp_data->ker.XID_C_Frame + HEADER_LEN, 0, UF_ALL, TRUE, ORIG_RLP_VERS, rlp_data->ker.Orig_K_iwf_ms, rlp_data->ker.Orig_K_ms_iwf, rlp_data->ker.Orig_T1, rlp_data->ker.Orig_N2, rlp_data->ker.Orig_T2, rlp_data->ker.Orig_Pt, rlp_data->ker.Orig_P0, rlp_data->ker.Orig_P1, rlp_data->ker.Orig_P2 ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERP | | STATE : code ROUTINE : ker_init_xid_data | +--------------------------------------------------------------------+ PURPOSE : initialize XID data from attach request */ GLOBAL void ker_init_xid_data ( T_RLP_ATTACH_REQ *rlp_attach_req ) { TRACE_FUNCTION ("ker_init_xid_data()"); rlp_data->ker.Orig_K_ms_iwf = (U8)rlp_attach_req->k_ms_iwf; rlp_data->ker.K_ms_iwf = DEF_K_MS_IWF; rlp_data->ker.Orig_K_iwf_ms = (U8)rlp_attach_req->k_iwf_ms; rlp_data->ker.K_iwf_ms = DEF_K_IWF_MS; rlp_data->ker.Orig_T1 = TIME_EXT2INT (rlp_attach_req->t1); rlp_data->ker.T1 = rlp_data->ker.Def_T1; /* * >>>> According to GSM 11.10 V4.17.1 and V5.4.0 the default value must be used. * >>>> Later versions specify, that the value is used, which MS wants to negotiate. */ /* use t1 immediately without negotiation, if it is greater than the default */ /* if (rlp_data->ker.Orig_T1 > rlp_data->ker.T1) { rlp_data->ker.T1 = rlp_data->ker.Orig_T1; } */ /* rlp_data->ker.Orig_T2 = TIME_EXT2INT (rlp_attach_req->t2); */ rlp_data->ker.Orig_T2 = 200; rlp_data->ker.T2 = DEF_T2; rlp_data->ker.Orig_N2 = rlp_attach_req->n2; rlp_data->ker.N2 = DEF_N2; rlp_data->ker.Orig_Pt = rlp_attach_req->pt; rlp_data->ker.Pt = DEF_PT; rlp_data->ker.Orig_P0 = rlp_attach_req->p0; rlp_data->ker.P0 = DEF_P0; rlp_data->ker.Orig_P1 = rlp_attach_req->p1; rlp_data->ker.P1 = DEF_P1; rlp_data->ker.Orig_P2 = rlp_attach_req->p2; rlp_data->ker.P2 = DEF_P2; rlp_data->ker.Rlp_Vers = ORIG_RLP_VERS; if( !(rlp_data->ker.Orig_P0 EQ RLP_COMP_DIR_NONE AND rlp_data->ker.Orig_K_ms_iwf EQ DEF_K_MS_IWF AND rlp_data->ker.Orig_K_iwf_ms EQ DEF_K_IWF_MS AND rlp_data->ker.Orig_T1 EQ rlp_data->ker.Def_T1 AND /* rlp_data->ker.Orig_T2 EQ DEF_T2 AND */ rlp_data->ker.Orig_N2 EQ DEF_N2 AND rlp_data->ker.Orig_Pt EQ DEF_PT AND rlp_data->ker.Orig_P0 EQ DEF_P0 AND rlp_data->ker.Orig_P1 EQ DEF_P1 AND rlp_data->ker.Orig_P2 EQ DEF_P2 )) { ker_requestxid (); } else { PALLOC (rlp_xid_ind, RLP_XID_IND); rlp_xid_ind->rlp_vers = rlp_data->ker.Rlp_Vers; rlp_xid_ind->k_ms_iwf = rlp_data->ker.K_ms_iwf; rlp_xid_ind->k_iwf_ms = rlp_data->ker.K_iwf_ms; rlp_xid_ind->t1 = TIME_INT2EXT (rlp_data->ker.T1); rlp_xid_ind->t2 = TIME_INT2EXT (rlp_data->ker.T2); rlp_xid_ind->n2 = rlp_data->ker.N2; rlp_xid_ind->pt = rlp_data->ker.Pt; rlp_xid_ind->p0 = rlp_data->ker.P0; rlp_xid_ind->p1 = rlp_data->ker.P1; rlp_xid_ind->p2 = rlp_data->ker.P2; PSENDX (L2R, rlp_xid_ind); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_trace_rlp_frame | +--------------------------------------------------------------------+ PURPOSE : traces the elements from the given RLP frame */ #ifdef TRACE_RLP_FRAME GLOBAL void ker_trace_rlp_frame ( T_RLP_FRAMEPTR frame ) { T_BIT cBit; T_BIT pFBit; T_FRAME_NUM nr; T_FRAME_NUM ns; T_RLP_DEBUG *deb = &rlp_data->deb; TRACE_FUNCTION ("ker_trace_rlp_frame()"); cBit = (T_BIT) (frame[0] & 1); ns = (T_FRAME_NUM) ((frame[0] >> 3) | ((frame[1] & 1)<<5)); pFBit = (T_BIT) ((frame[1] & 2)>>1); deb->idx=0; deb->trc_buf[deb->idx++] = 'U'; deb->trc_buf[deb->idx++] = ':'; switch (ns) { case 62: /* S-Frame */ { T_SF sFrame; nr = (T_FRAME_NUM) ((frame[1]>>2) & 0x3f); 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++] = ' '; sFrame = (T_SF) ((frame[0]>>1) & 0x03); /* * maybe optimize with a table!! */ switch (sFrame) { case SF_RR: memcpy(&deb->trc_buf[deb->idx], "RR ",3); break; case SF_RNR: memcpy(&deb->trc_buf[deb->idx], "RNR",3); break; case SF_REJ: memcpy(&deb->trc_buf[deb->idx], "REJ",3); break; case SF_SREJ: memcpy(&deb->trc_buf[deb->idx], "SRJ",3); break; default: memcpy(&deb->trc_buf[deb->idx], "***",3); break; } deb->idx+=3; break; } case 63: /* U-Frame */ { T_UF uFrame; uFrame = (T_UF) ((frame[1]>>2) & 0x1f); deb->trc_buf[deb->idx++] = 'U'; deb->trc_buf[deb->idx++] = ' '; /* * maybe optimize with a table!! */ switch (uFrame) { case UF_NULL: return; case UF_UI: memcpy(&deb->trc_buf[deb->idx], "UI ",4); break; case UF_DM: memcpy(&deb->trc_buf[deb->idx], "DM ",4); break; case UF_SABM: memcpy(&deb->trc_buf[deb->idx], "SABM",4); break; case UF_DISC: memcpy(&deb->trc_buf[deb->idx], "DISC",4); break; case UF_UA: memcpy(&deb->trc_buf[deb->idx], "UA ",4); break; case UF_XID: memcpy(&deb->trc_buf[deb->idx], "XID ",4); break; case UF_TEST: memcpy(&deb->trc_buf[deb->idx], "TEST",4); break; case UF_REMAP: memcpy(&deb->trc_buf[deb->idx], "RMAP",4); break; default: memcpy(&deb->trc_buf[deb->idx], "****",4); break; } nr = 0; deb->idx += 4; break; } default: /* I+S-Frame */ { T_SF sFrame; nr = (T_FRAME_NUM) ((frame[1]>>2) & 0x3f); sFrame = (T_SF) ((frame[0]>>1) & 0x03); 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++] = ' '; /* * maybe optimize with a table!! */ switch (sFrame) { case SF_RR: memcpy(&deb->trc_buf[deb->idx], "RR ",3); break; case SF_RNR: memcpy(&deb->trc_buf[deb->idx], "RNR",3); break; case SF_REJ: memcpy(&deb->trc_buf[deb->idx], "REJ",3); break; case SF_SREJ: memcpy(&deb->trc_buf[deb->idx], "SRJ",3); break; default: memcpy(&deb->trc_buf[deb->idx], "***",3); break; } deb->idx += 3; break; } } 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 /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_resetTRCVS | +--------------------------------------------------------------------+ PURPOSE : Resets all running timer in the TCRVS table */ LOCAL void ker_resetTRCVS ( void ) { T_FRAME_NUM lookUp; TRACE_FUNCTION ("ker_resetTRCVS()"); for (lookUp = 0; lookUp < MAX_SREJ_COUNT; lookUp++) { if (!rlp_data->ker.rcvsTab[lookUp].isFree AND rlp_data->ker.rcvsTab[lookUp].trcvs_running) { TIMERSTOP (lookUp); rlp_data->ker.rcvsTab[lookUp].trcvs_running = FALSE; rlp_data->ker.rcvsTab[lookUp].isFree = TRUE; rlp_data->ker.rcvsTab[lookUp].slot = INVALID_IDX; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_reset_all_t_rcvs | +--------------------------------------------------------------------+ PURPOSE : Resets the timer for each rcvs slot. */ GLOBAL void ker_reset_all_t_rcvs ( void ) { TRACE_FUNCTION ("ker_reset_all_t_rcvs()"); ker_resetTRCVS (); rlp_data->ker.SREJ_Count = 0; srm_reset (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_s_handler | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_s_handler ( T_BIT cBit, T_BIT pFBit, T_SF sf, T_FRAME_NUM nr, BOOL *retransError ) { BOOL allFramesAck = FALSE; TRACE_FUNCTION ("ker_s_handler()"); *retransError = FALSE; if (cBit EQ 1 AND pFBit EQ 1) { rlp_data->ker.Ackn_State = IS_SEND; rlp_data->ker.Ackn_FBit = 1; rbm_reset_all_r_states (); ker_reset_all_t_rcvs (); rlp_data->ker.REJ_State = ISW_IDLE; TIMERSTOP (TRCVR_HANDLE); } if (rlp_data->ker.Poll_State NEQ ISW_IDLE) { if (pFBit EQ 0 OR sf EQ SF_REJ OR sf EQ SF_SREJ ) return; sbm_rej_from_n (nr, retransError); rlp_data->ker.Poll_State = ISW_IDLE; rlp_data->ker.Poll_xchg = IW_IDLE; rlp_data->ker.Poll_Count = 0; if (*retransError) { ker_reset_all_t_rcvs (); rbm_reset_srej_slots (); TIMERSTOP (TRCVR_HANDLE); TIMERSTOP (TT_HANDLE); rlp_data->ker.DISC_State = ISW_SEND; rlp_data->ker.DISC_Count = 0; if (rlp_data->ker.Poll_xchg EQ IW_IDLE) rlp_data->ker.DISC_PBit = 1; else rlp_data->ker.DISC_PBit = 0; ker_deinit_link_vars(); rlp_data->ker.DISC_Ind = TRUE; return; } } switch (sf) { case SF_RR: allFramesAck = sbm_ack_upto_n(nr); if (rlp_data->ker.RRReady EQ FALSE) { TRACE_EVENT ("Remote RR"); } rlp_data->ker.RRReady = TRUE; break; case SF_RNR: allFramesAck = sbm_ack_upto_n(nr); if (rlp_data->ker.RRReady EQ TRUE) { TRACE_EVENT ("Remote RNR"); } rlp_data->ker.RRReady = FALSE; break; case SF_REJ: allFramesAck = sbm_ack_upto_n(nr); sbm_rej_from_n (nr, retransError); if(*retransError) { ker_reset_all_t_rcvs (); rbm_reset_srej_slots (); TIMERSTOP (TRCVR_HANDLE); TIMERSTOP (TT_HANDLE); rlp_data->ker.DISC_State = ISW_SEND; rlp_data->ker.DISC_Count = 0; if (rlp_data->ker.Poll_xchg EQ IW_IDLE) rlp_data->ker.DISC_PBit = 1; else rlp_data->ker.DISC_PBit = 0; ker_deinit_link_vars(); rlp_data->ker.DISC_Ind = TRUE; return; } if (rlp_data->ker.RRReady EQ FALSE) { TRACE_EVENT ("Remote RR"); } rlp_data->ker.RRReady = TRUE; break; case SF_SREJ: sbm_srej_frame (nr); TIMERSTOP (TT_HANDLE); return; } if (allFramesAck) { TIMERSTOP (TT_HANDLE); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_data | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_send_data(void) { T_EXT_FRAME_NUM slot; T_FRAME_NUM vr; TRACE_FUNCTION ("ker_send_data()"); if (rlp_data->ker.UA_State EQ IS_SEND) { sig_ker_snd_ua_req (rlp_data->ker.UA_FBit); rlp_data->ker.UA_State = IS_IDLE; } else { vr = rbm_get_vr(); if (rlp_data->ker.Ackn_FBit EQ 1) { if (rlp_data->ker.LRReady) ker_send_rr_rri_resp (vr); else ker_send_rnr_rnri_resp (vr); } else { switch (rlp_data->ker.REJ_State) { case ISW_SEND: ker_send_rej_reji_cmd (vr); break; default: slot = rbm_check_slots_srej(); if (slot EQ INVALID_IDX) { if (rlp_data->ker.LRReady) ker_send_rr_rri_cmd (vr); else ker_send_rnr_rnri_cmd (vr); } else ker_send_srej_sreji_cmd (slot); break; } } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_txu | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL BOOL ker_send_txu ( void ) { TRACE_FUNCTION ("ker_send_txu()"); if (rlp_data->ker.TEST_R_State EQ IS_SEND) { sig_ker_snd_test_req ( 0, rlp_data->ker.TEST_R_FBit, &rlp_data->ker.TEST_R_FrameDesc ); rlp_data->ker.TEST_R_State = IS_IDLE; return TRUE; } if (rlp_data->ker.XID_R_State EQ IS_SEND) { TRACE_EVENT ("Snd XID R"); sig_ker_snd_xid_req ( 0, 1, &rlp_data->ker.XID_R_FrameDesc ); rlp_data->ker.XID_R_State = IS_IDLE; return TRUE; } if (GET_STATE(KERXID_C) EQ ISW_SEND) { if (rlp_data->ker.Poll_xchg NEQ IW_WAIT) { TRACE_EVENT ("Snd XID C"); sig_ker_snd_xid_req ( 1, 1, &rlp_data->ker.XID_C_FrameDesc ); SET_STATE(KERXID_C, ISW_WAIT); TIMERSTART(TXID_HANDLE, rlp_data->ker.T1); rlp_data->ker.Poll_xchg = IW_WAIT; return TRUE; } } if (rlp_data->ker.UI_State EQ IS_SEND) { sig_ker_snd_ui_req ( 1, 0, &rlp_data->ker.UI_FrameDesc ); rlp_data->ker.UI_State = IS_IDLE; return TRUE; } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_deinit_link_vars | +--------------------------------------------------------------------+ PURPOSE : deinitialize send/receive buffer manager, */ GLOBAL void ker_deinit_link_vars ( void ) { TRACE_FUNCTION ("ker_deinit_link_vars()"); rlp_data->ker.Connected = FALSE; sbm_deinit (); rbm_deinit (); srm_deinit (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_rlp_error_ind | +--------------------------------------------------------------------+ PURPOSE : send a error cause to L2R */ GLOBAL void ker_send_rlp_error_ind(USHORT cause) { PALLOC (rlp_error_ind, RLP_ERROR_IND); TRACE_FUNCTION ("ker_send_rlp_error_ind()"); TRACE_EVENT_P1("RLP Error : %d", cause); rlp_error_ind->cause = cause; PSENDX (L2R, rlp_error_ind); ker_deinit_link_vars (); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_getSlotTRCVS | +--------------------------------------------------------------------+ PURPOSE : search the rcvs entry for a given timer handle. The function returns the corresponding slot. The entry is freed. This function is used in the timeout handling functions of the entity. */ GLOBAL T_FRAME_NUM ker_getSlotTRCVS (USHORT index) { rlp_data->ker.rcvsTab[index].trcvs_running = FALSE; rlp_data->ker.rcvsTab[index].isFree = TRUE; return rlp_data->ker.rcvsTab[index].slot; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_fill_remap_frame | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_fill_remap_frame ( T_FRAME_NUM vr ) { TRACE_FUNCTION ("ker_fill_remap_frame()"); rlp_data->ker.REMAP_Frame[HEADER_LEN + 0] = vr * 4; rlp_data->ker.REMAP_Frame[HEADER_LEN + 1] = 0; ker_put_xid_data ( rlp_data->ker.REMAP_Frame + HEADER_LEN, 2, UF_ALL, TRUE, ORIG_RLP_VERS, rlp_data->ker.Orig_K_iwf_ms, rlp_data->ker.Orig_K_ms_iwf, rlp_data->ker.Orig_T1, rlp_data->ker.Orig_N2, rlp_data->ker.Orig_T2, rlp_data->ker.Orig_Pt, rlp_data->ker.Orig_P0, rlp_data->ker.Orig_P1, rlp_data->ker.Orig_P2 ); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_send_remap_data | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL BOOL ker_send_remap_data ( void ) { T_RLP_DATA_REQ *prim; TRACE_FUNCTION ("ker_send_remap_data()"); if (sbm_recall_prim (&prim)) { PPASS (prim, rlp_remap_data_ind, RLP_REMAP_DATA_IND); rlp_remap_data_ind->data_size = rlp_data->ker.OldFrameSize - HEADER_LEN - TRAILER_LEN; PSENDX (L2R, rlp_remap_data_ind); return TRUE; } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : RLP_KERF | | STATE : code ROUTINE : ker_set_frame_size | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL void ker_set_frame_size ( UBYTE rate ) { TRACE_FUNCTION ("ker_set_frame_size()"); switch(rate) { case RLP_FULLRATE_14400: rlp_data->ker.Def_T1 = DEF_T1_FR14400; rlp_data->ker.FrameSize = FRAME_SIZE_LONG; break; case RLP_FULLRATE_9600: rlp_data->ker.Def_T1 = DEF_T1_FR9600; rlp_data->ker.FrameSize = FRAME_SIZE_SHORT; break; case RLP_FULLRATE_4800: rlp_data->ker.Def_T1 = DEF_T1_FR4800; rlp_data->ker.FrameSize = FRAME_SIZE_SHORT; break; case RLP_HALFRATE_4800: rlp_data->ker.Def_T1 = DEF_T1_HR4800; rlp_data->ker.FrameSize = FRAME_SIZE_SHORT; break; } rlp_data->ker.FramesPerPrim = (rlp_data->ker.BytesPerPrim + rlp_data->ker.FrameSize - 1) / rlp_data->ker.FrameSize; sig_ker_snd_set_frame_size_req (rlp_data->ker.FrameSize); }