FreeCalypso > hg > fc-magnetite
view src/g23m-gsm/dl/dl_dph.c @ 372:c389d938a50e
aci3: AT%CBC and AT@CHG hooked in
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 01 Jan 2018 19:06:34 +0000 |
| parents | 27a4235405c6 |
| children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS | Modul : DL_DPH +----------------------------------------------------------------------------- | 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 distributing | all primitives of the lower layers. +----------------------------------------------------------------------------- */ #ifndef DL_DPH_C #define DL_DPH_C #define ENTITY_DL /*==== INCLUDES ===================================================*/ #include "typedefs.h" #include <string.h> #include "pconst.cdg" #include "vsi.h" #include "pconst.cdg" #include "custom.h" #include "gsm.h" #include "mon_dl.h" #include "prim.h" #include "pei.h" #include "tok.h" #include "ccdapi.h" #include "dl.h" #include "dl_trc.h" /*==== EXPORT =====================================================*/ /*==== PRIVAT =====================================================*/ #if defined(_SIMULATION_) && !defined(DL_2TO1) LOCAL void dph_ph_data_req (T_PH_DATA_REQ * data_req); #endif /* _SIMULATION_ && !DL_2TO1 */ #if defined(DL_2TO1) || defined(USE_L1M_GS001_1) LOCAL U8 convert_dcch_ch_type (U8 channel_type); #endif /* DL_2TO1 || USE_L1M_GS001_1 */ LOCAL void dl_process_downlink (UBYTE error_flag, UBYTE channel_type, UBYTE * frame, ULONG fn); /*==== VARIABLES ==================================================*/ /*==== FUNCTIONS ==================================================*/ #if defined(DL_2TO1) #if defined(_SIMULATION_) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dph_ph_ready_to_send | +--------------------------------------------------------------------+ PURPOSE : Reception of a PH_READY_TO_SEND primitive. Uplink opportunity for simulation. */ GLOBAL void l1test_call_mphc_read_dcch (T_L1TEST_CALL_MPHC_READ_DCCH * ready) { UBYTE no_signalling_flag = NO_SIGNALLING; T_RADIO_FRAME *frame = NULL; GET_INSTANCE_DATA; dl_data->dl_active = FALSE; switch (ready->chn_mode) { case CM_SIGNALLING_ONLY: /* * Take over the behaviour of dll_read_dcch(): * No ch_type is given by the layer 1 for SDCCH and FACCH, * the first parameter ch_type of the fuction dl1_uplink_ind() get a * value set to zero. */ no_signalling_flag = SIG_ONLY; break; default: break; } frame = dl1_uplink_ind (0, no_signalling_flag); if (frame) { l1test_return_mphc_read_dcch (frame); } MY_PFREE (ready); } GLOBAL void l1test_call_mphc_read_sacch (T_L1TEST_CALL_MPHC_READ_SACCH * ready) { T_RADIO_FRAME *frame = NULL; GET_INSTANCE_DATA; dl_data->dl_active = FALSE; frame = dl1_uplink_ind (L2_CHANNEL_SACCH, SIG_ONLY); if (frame) { l1test_return_mphc_read_sacch (frame); } MY_PFREE (ready); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dph_ph_data_req | +--------------------------------------------------------------------+ PURPOSE : Sending of a PH_DATA_REQ primitive. Uplink for simulation. */ GLOBAL void l1test_return_mphc_read_dcch (T_RADIO_FRAME * frame) { PALLOC(data_req, L1TEST_RETURN_MPHC_READ_DCCH); TRACE_FUNCTION ("l1test_return_mphc_read_dcch()"); memcpy(data_req->l2_frame.frame_array, frame->frame_array, sizeof(data_req->l2_frame)); PSEND (hCommPL, data_req); } GLOBAL void l1test_return_mphc_read_sacch (T_RADIO_FRAME * frame) { PALLOC(data_req, L1TEST_RETURN_MPHC_READ_SACCH); TRACE_FUNCTION ("l1test_return_mphc_read_sacch()"); memcpy(data_req->l2_frame.frame_array, frame->frame_array, sizeof(data_req->l2_frame)); PSEND (hCommPL, data_req); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : l1test_call_mphc_dcch_downlink | +--------------------------------------------------------------------+ PURPOSE : Reception of a L1TEST_CALL_MPHC_DCCH_DOWNLINK primitive. */ GLOBAL void l1test_call_mphc_dcch_downlink (T_L1TEST_CALL_MPHC_DCCH_DOWNLINK * data_ind) { /* * Take over the behaviour of dll_dcch_downlink(): * No ch_type is given by the layer 1 for SDCCH and FACCH, * the second parameter ch_type of the function dl_process_downlink() get a * value set to zero. */ dl_data->dl_active = FALSE; dl_process_downlink (data_ind->valid_flag, 0, data_ind->l2_frame.frame_array, NOT_PRESENT_32BIT); MY_PFREE (data_ind); } #endif /* _SIMULATION_ */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dph_ph_data_ind | +--------------------------------------------------------------------+ PURPOSE : Reception of a PH_DATA_IND primitive. This function is only available in stacks >= TCS5 (DL_2TO1). A function with the same name exist for the old GSM/GPRS stack. It is used for SACCH downlink on target as well as on simulation. In opposite to the old GSM/GPRS stack, a functional interface (l1test_call_mphc_dcch_downlink) is used by the dual mode stack implementation for SDCCH and FACCH during simulation. Therefore this function is only used for SACCH. */ GLOBAL void dph_ph_data_ind (T_MPHC_PH_DATA_IND * data_ind) { /* * Take over the behaviour of dll_dcch_downlink(): * No ch_type is given by the layer 1 for SDCCH and FACCH, * the second parameter ch_type of the function dl_process_downlink() get a * value set to zero. */ TRACE_FUNCTION ("dph_ph_data_ind() 2TO1"); if (data_ind->l2_channel_type EQ L2_CHANNEL_SACCH) dl_process_downlink (data_ind->error_cause, L2_CHANNEL_SACCH, data_ind->l2_frame.frame_array, NOT_PRESENT_32BIT); MY_PFREE (data_ind); } #else /* DL_2TO1 */ #if defined(_SIMULATION_) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dph_ph_ready_to_send | +--------------------------------------------------------------------+ PURPOSE : Reception of a PH_READY_TO_SEND primitive. Uplink opportunity for simulation. */ GLOBAL void dph_ph_ready_to_send (T_PH_READY_TO_SEND * ready) { UBYTE no_signalling_flag = SIG_ONLY; T_RADIO_FRAME *frame; UBYTE ch_type; switch (ready->ch_type) { case L2_CHANNEL_FACCH_F: case L2_CHANNEL_FACCH_H: no_signalling_flag = NO_SIGNALLING; /*lint -fallthrough */ case L2_CHANNEL_SDCCH: /* * Take over the behaviour of dll_read_dcch(): * No ch_type is given by the layer 1 for SDCCH and FACCH, * the first parameter ch_type of the function dl1_uplink_ind() get a * value set to zero. */ ch_type = 0; break; default: ch_type = ready->ch_type; break; } frame = dl1_uplink_ind (ch_type, no_signalling_flag); if (frame) { PALLOC_SDU (data, PH_DATA_REQ, 23*BITS_PER_BYTE);/* T_PH_DATA_REQ */ /* * In case the value of ready->ch_type was set to zero above it has to set * to the value of dcch0_ch_type corresponding the behaviour of the * function dl1_uplink_ind(). if (ready->ch_type EQ 0) { T_DL_DATA *dl_data = dl_get_data (); ready->ch_type = dl_data->dcch0_ch_type ? dl_data->dcch0_ch_type : L2_CHANNEL_SDCCH; } */ memcpy (data->sdu.buf, frame, 23);/*lint !e419 (Warning -- Apparent data overrun) */ if (ready->ch_type EQ L2_CHANNEL_SACCH) { data->sdu.buf[0] = 0;/* layer 1 header occupies 2 bytes */ data->sdu.buf[1] = 0;/*lint !e415 (Warning -- access of out-of-bounds pointer) */ data->sdu.o_buf = 2 * BITS_PER_BYTE; data->sdu.l_buf = 21 * BITS_PER_BYTE; } else { data->sdu.o_buf = 0; data->sdu.l_buf = 23 * BITS_PER_BYTE; } data->ch_type = ready->ch_type; dph_ph_data_req (data); } MY_PFREE (ready); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dph_ph_data_req | +--------------------------------------------------------------------+ PURPOSE : Sending of a PH_DATA_REQ primitive. Uplink for simulation. */ LOCAL void dph_ph_data_req (T_PH_DATA_REQ * data_req) { TRACE_FUNCTION ("dph_ph_data_req()"); #if defined(DL_TRACE_WIN32) if (data_req->ch_type EQ L2_CHANNEL_SACCH) { /*lint -e416 (Warning -- creation of out-of-bounds pointer) */ FTRC (data_req->ch_type, data_req->sdu.buf+2, 1); /* uplink SACCH */ /*lint +e416 (Warning -- creation of out-of-bounds pointer) */ } else { FTRC (data_req->ch_type, data_req->sdu.buf, 1); /* uplink other */ } #endif /* DL_TRACE_WIN32 */ PSENDX (PL, data_req); } #endif /* _SIMULATION */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dph_ph_data_ind | +--------------------------------------------------------------------+ PURPOSE : Reception of a PH_DATA_IND primitive. This function is only available in the old GSM/GPRS stack (<= TCS4). A function with the same name exist for the dual mode stack. It can be used for SACCH downlink on target as well as on simulation. During simulation the old GSM/GPRS stack uses this primitive function for SDCCH and FACCH also. In this case it takes over the functional interface dll_dcch_downlink(). In the current implementation of the old GSM/GPRS stack the ALR queue is exclusively used for incoming PH_DATA_IND primitives from L1 for target builds. Only Acknowledged frames (SAPI=3) and frames with Bter format (short PD header) are forwarded to DL and handled by this function. */ GLOBAL void dph_ph_data_ind (T_PH_DATA_IND * ph_data_ind) { if (ph_data_ind) { #if defined(_SIMULATION_) /* * Take over the behaviour of dll_dcch_downlink(): * No ch_type is given by the layer 1 for SDCCH and FACCH, * the first parameter ch_type of the function dl_process_downlink() get a * value set to zero. */ switch (ph_data_ind->l2_channel_type) { case L2_CHANNEL_SDCCH: case L2_CHANNEL_FACCH_F: case L2_CHANNEL_FACCH_H: ph_data_ind->l2_channel_type = 0; break; default: break; } #else /* _SIMULATION */ if (ph_data_ind->l2_channel_type EQ L2_CHANNEL_SACCH) #endif /* _SIMULATION */ dl_process_downlink (ph_data_ind->error_cause, ph_data_ind->l2_channel_type, ph_data_ind->l2_frame.A, NOT_PRESENT_32BIT); MY_PFREE (ph_data_ind); } } #endif /* DL_2TO1 */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dl_process_downlink | +--------------------------------------------------------------------+ PURPOSE : really processing of layer 2 frame downlink. */ LOCAL void dl_process_downlink (UBYTE error_flag, UBYTE channel_type, UBYTE * frame, ULONG fn) { GET_INSTANCE_DATA; TRACE_FUNCTION ("dll_process_downlink()"); /* set the active dedicated channel type if necessary */ if (channel_type EQ 0) { TRACE_EVENT_WIN_P3 ("dl_process_downlink(%u,) -> ch=%u FN=%d", channel_type, dl_data->dcch0_ch_type, ((int)fn)); channel_type = dl_data->dcch0_ch_type ? dl_data->dcch0_ch_type : L2_CHANNEL_SDCCH; } else { TRACE_EVENT_WIN_P1 ("dl_process_downlink(%u,)", channel_type); } if (channel_type NEQ L2_CHANNEL_SACCH) dl_data->interrupt_context = TRUE; if (fn NEQ NOT_PRESENT_32BIT) dl_data->fn = fn; #if defined(DL_TRACE_ENABLED) { UCHAR trace_channel = TRACE_CH_UNKNOWN; UCHAR frame_sapi; switch (channel_type) { case L2_CHANNEL_SACCH: frame_sapi = ((*(frame + 2)) & 0x1c) >> 2; if (frame_sapi EQ PS_SAPI_0) trace_channel = C_DCCH0; else if (frame_sapi EQ PS_SAPI_3) trace_channel = C_DCCH3; break; case L2_CHANNEL_SDCCH: frame_sapi = ((*frame) & 0x1c) >> 2; if (frame_sapi EQ PS_SAPI_0) trace_channel = C_DCCH0; else if (frame_sapi EQ PS_SAPI_3) trace_channel = C_DCCH3; break; case L2_CHANNEL_FACCH_F: case L2_CHANNEL_FACCH_H: frame_sapi = ((*frame) & 0x1c) >> 2; if (frame_sapi EQ PS_SAPI_0) trace_channel = C_DCCH0; break; default: break; }/* endswitch chan */ if (error_flag EQ VALID_BLOCK) { DL_OFFLINE_TRACE (TRACE_DOWNLINK, trace_channel, channel_type, &frame[0]); } } #endif /* DL_TRACE_ENABLED */ #if defined(DL_TRACE_WIN32) if (error_flag EQ VALID_BLOCK) { if (channel_type EQ L2_CHANNEL_SACCH) FTRC (channel_type, frame+2, 0); /* downlink SACCH */ else FTRC (channel_type, frame, 0); /* downlink other */ } #endif /* DL_TRACE_WIN32 */ if (channel_type EQ 0) { DL_OFFLINE_TRACE (TRACE_DL_EVENT, TRACE_CH_UNKNOWN, channel_type, "DL:no valid channel type"); } else { dl_downlink (error_flag, channel_type, &frame[0], fn); } dl_data->interrupt_context = FALSE; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dl1_uplink_ind | +--------------------------------------------------------------------+ PURPOSE : Functional Interface for the uplink direction of the logical channels SACCH/SDCCH/FACCH. (only used by the target) */ GLOBAL T_RADIO_FRAME * dl1_uplink_ind (UBYTE channel_type, UBYTE no_signalling_flag) { T_RADIO_FRAME * pRadioFrame; UCHAR channel; UCHAR sapi; UCHAR signalling = SIG_ONLY; GET_INSTANCE_DATA; dl_data->interrupt_context = TRUE; /* set the active dedicated channel type if necessary */ if (channel_type EQ 0) channel_type = dl_data->dcch0_ch_type; TRACE_EVENT_WIN_P1 ("dl1_uplink_ind(ch_type=%u,)", channel_type); switch (channel_type) { case L2_CHANNEL_SACCH: /* * The priority arrangement on the SACCH must ensure that if a SAPI = 3 * frame is awaiting transmission, two SAPI = 0 frames are not sent in * consecutive SACCH frames. In addition, for the mobile to network * direction it must also be ensured that any SAPI = 3 frame is followed * by at least one SAPI = 0 frame. * * SAPI = 3 is set as default value. The function dl_uplink() together with * the variable 'sacch_last_uplink_sapi' determind the actual value. * e.g. if last uplinked SACCH frame was one with SAPI=3 * or * if no SACCH SAPI=3 frame is awaiting transmission * then a SACCH SAPI=0 frame should be uplinked */ channel = C_SACCH0; sapi = PS_SAPI_3; TRACE_EVENT_WIN_P2 ("dl1_uplink_ind(%s, %s)", CH_TYPE_NAME[channel_type], signalling EQ SIG_ONLY?"SIG_ONLY":"NO_SIGNALLING"); break; default: TRACE_ERROR ("dl1_uplink_ind():no valid channel type, use SDCCH instead"); channel_type = L2_CHANNEL_SDCCH; /*lint -fallthrough*/ case L2_CHANNEL_FACCH_F: case L2_CHANNEL_FACCH_H: case L2_CHANNEL_SDCCH: /* * build frame for SAPI = 3 will be called (with lower priority) * if no data is waiting for SAPI = 0. */ channel = C_DCCH0; sapi = PS_SAPI_0; dl_data->cch[channel].ch_type = channel_type; signalling = no_signalling_flag; TRACE_EVENT_WIN_P3 ("dl1_uplink_ind(%s, %s) SAPI=%u", CH_TYPE_NAME[channel_type], signalling EQ SIG_ONLY?"SIG_ONLY":"NO_SIGNALLING", sapi); break; } pRadioFrame= dl_uplink (channel, sapi, signalling, FALSE); if (pRadioFrame) { #ifndef DL_2TO1 DL_OFFLINE_TRACE (TRACE_UPLINK, channel, channel_type, &pRadioFrame->A[0]); #else DL_OFFLINE_TRACE (TRACE_UPLINK, channel, channel_type, &pRadioFrame->frame_array[0]); #endif } dl_data->interrupt_context = FALSE; return pRadioFrame; /* return pointer to frame to layer 1 */ } #if defined(DL_2TO1) || defined(USE_L1M_GS001_1) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : convert_dcch_ch_type | +--------------------------------------------------------------------+ PURPOSE : Converts dedicated channel types to layer 2 channel types according to L1M_GS001_1 and L1M_GS001_3. */ LOCAL U8 convert_dcch_ch_type (U8 channel_type) { UBYTE ch_type; switch (channel_type) { case MPHC_CH_TCH_F: ch_type = L2_CHANNEL_FACCH_F;break; case MPHC_CH_TCH_H: ch_type = L2_CHANNEL_FACCH_H;break; case MPHC_CH_SDCCH_4: case MPHC_CH_SDCCH_8:ch_type = L2_CHANNEL_SDCCH;break; } return ch_type; } #endif /* DL_2TO1 || USE_L1M_GS001_1 */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dll_read_dcch | +--------------------------------------------------------------------+ PURPOSE : Functional Interface for the uplink direction of SDCCH/FACCH. Only used by the TI target, look into TI interface S922 or L1M_GS001_1. */ #if defined(DL_2TO1) || defined(USE_L1M_GS001_1) GLOBAL T_RADIO_FRAME * dll_read_dcch (U8 chn_mode, U8 channel_type) { return dl1_uplink_ind(convert_dcch_ch_type(channel_type), chn_mode); } #else /* DL_2TO1 || USE_L1M_GS001_1 */ GLOBAL T_RADIO_FRAME * dll_read_dcch (U8 chn_mode) { /* 0 stands for the currently active SDCCH and FACCH channel type */ return dl1_uplink_ind(0, chn_mode); } #endif /* DL_2TO1 || USE_L1M_GS001_1 */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dll_read_sacch | +--------------------------------------------------------------------+ PURPOSE : Functional Interface for the uplink direction of SACCH. Only used by the TI target, look into TI interface S922 or L1M_GS001_1. */ GLOBAL T_RADIO_FRAME * dll_read_sacch (UBYTE chn_mode) { return dl1_uplink_ind (L2_CHANNEL_SACCH, SIG_ONLY); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : DL_DPH | | STATE : code ROUTINE : dll_dcch_downlink | +--------------------------------------------------------------------+ PURPOSE : Functional Interface for the downlink direction of FACCH/DCCH. Only used by the TI target, look into TI interface S922 or L1M_GS001_1. */ #if defined(DL_2TO1) || defined(USE_L1M_GS001_1) GLOBAL void dll_dcch_downlink(U32 * data_ptr, U8 valid_flag, U8 channel_type, U32 fn) { if ((data_ptr NEQ NULL) AND (valid_flag EQ DATA_VALID)) { dl_process_downlink (VALID_BLOCK, convert_dcch_ch_type(channel_type), (UBYTE *)data_ptr, fn); } } #else /* DL_2TO1 || USE_L1M_GS001_1 */ #if defined(SEND_FN_TO_L2_IN_DCCH) && (SEND_FN_TO_L2_IN_DCCH == 1) GLOBAL void dll_dcch_downlink(U32 * data_ptr, U8 valid_flag, U32 fn) { if ((data_ptr NEQ NULL) AND valid_flag) { /* * channel type 0 stands for currently active dedicated * SDCCH or FACCH channel type */ dl_process_downlink (VALID_BLOCK, 0, (UBYTE *)data_ptr, fn); } } #else /* SEND_FN_TO_L2_IN_DCCH == 1 */ GLOBAL void dll_dcch_downlink(U32 * data_ptr, U8 valid_flag) { if ((data_ptr NEQ NULL) AND valid_flag) { /* * channel type 0 stands for currently active dedicated * SDCCH or FACCH channel type */ dl_process_downlink (VALID_BLOCK, 0, (UBYTE *)data_ptr, NOT_PRESENT_32BIT); } } #endif /* SEND_FN_TO_L2_IN_DCCH == 1 */ #endif /* DL_2TO1 || USE_L1M_GS001_1 */ #endif /* DL_DPH_C */