FreeCalypso > hg > fc-tourmaline
view src/g23m-fad/fad/fad_sndf.c @ 266:160a5b3a076c
new ABB_SLEEP_RESTRICTION definition in fc-target.h
When we first introduced the mechanism to suppress ABB superdeep sleep
on targets with LCDs powered from Iota VRIO, we made it conditional on
CONFIG_TARGET_LUNA. This conditional is now being generalized: the
feature in question is now conditionalized on the new ABB_SLEEP_RESTRICTION
preprocessor symbol, to be defined in targets/*.h for those targets
that need it. The new ABB_SLEEP_RESTRICTION definition is being added
to targets/luna[12].h to keep the actual logic unchanged.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Wed, 02 Jun 2021 02:12:14 +0000 |
parents | fa8dc04885d8 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : FAD_SNDF +----------------------------------------------------------------------------- | 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 SND subcomponent SEQ (sequencer) +----------------------------------------------------------------------------- */ #ifndef FAD_SNDF_C #define FAD_SNDF_C #endif #define ENTITY_FAD /*==== INCLUDES ===================================================*/ #include <string.h> #include "typedefs.h" #include "vsi.h" #include "macdef.h" #include "pconst.cdg" #include "custom.h" #include "gsm.h" #include "cnf_fad.h" #include "mon_fad.h" #include "prim.h" #include "pei.h" #include "tok.h" #include "ccdapi.h" #include "fad.h" #include "ra_l1int.h" /*==== CONST =======================================================*/ /*==== TYPES =======================================================*/ /*==== VAR EXPORT ==================================================*/ /*==== VAR LOCAL ===================================================*/ /*==== FUNCTIONS ===================================================*/ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_init | +--------------------------------------------------------------------+ PURPOSE : initialise the sequencer */ GLOBAL void snd_init (void) { T_SND *snd = &fad_data->snd; T_SBM *sbm = &fad_data->sbm; TRACE_FUNCTION ("snd_init()"); snd->bytes_to_send = REPEAT_FOREVER; snd->ra_req_frames = 0; snd->reset = SYNC_RESET; snd->send_ready_to_t30 = FALSE; snd->seq_buflen = 0; snd->seq_bufpos = 0; snd->data_bufpos = 0; snd->fad_data_req = NULL; sbm->FrameSize = FRAME_SIZE; sbm->syncCycle = SYNC_CYCLE_NONE; sbm->framesUntilSync = 0; snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_SYNC, LEN_SEQ_SYNC, 3); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_setupTCF | +--------------------------------------------------------------------+ PURPOSE : initialise the sequencer for TCF */ LOCAL void snd_setupTCF (void) { T_SND *snd = &fad_data->snd; snd->seq_buflen = 0; switch (snd->trans_rate) { case R_12000: /* 5 Data frames + 1 SYNC frame */ snd_SetSequence(snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_TCF, LEN_SEQ_TCF, 5); snd_SetSequence(&snd->seq_buf [snd->seq_buflen], &snd->seq_buflen, (UBYTE*)FR_SEQ_SYNC, LEN_SEQ_SYNC, 1); TRACE_EVENT ("setup TCF 12kbps"); break; case R_7200: /* 3 Data frames + 1 SYNC frame */ snd_SetSequence(snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_TCF, LEN_SEQ_TCF, 3); snd_SetSequence(&snd->seq_buf [snd->seq_buflen], &snd->seq_buflen, (UBYTE*)FR_SEQ_SYNC, LEN_SEQ_SYNC, 1); TRACE_EVENT ("setup TCF 7.2kbps"); break; case R_14400: /* 5 Data frames */ case R_9600: case R_4800: case R_2400: default: snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE *)FR_SEQ_TCF, LEN_SEQ_TCF, 5); TRACE_EVENT ("setup norm TCF"); break; } } /* +-------------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDS | | STATE : code ROUTINE : snd_SendReset | +-------------------------------------------------------------------------+ PURPOSE : Send SYNC frames following return to IDLE state */ GLOBAL void snd_SendReset (USHORT bytes_to_send) { T_SND *snd = &fad_data->snd; TRACE_FUNCTION ("snd_SendReset()"); if (snd->reset) { snd->reset--; snd_SendSequence (bytes_to_send, FR_SYNC); } if (!snd->reset) { snd->seq_buflen = 0; snd->seq_bufpos = 0; switch (GET_STATE (SND)) { case PREAM_SND: snd->bytes_to_send = PREAMBLE_BYTES_TI_SND; snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_PREAMBLE, LEN_SEQ_PREAMBLE, 12); break; case TCF_SND: snd->bytes_to_send = snd_DurationToBytes (snd->trans_rate, TIME_TCF_SND); snd_setupTCF(); /* set the sequencer for the TCF pattern */ break; case TRAIN_SND: #ifdef _SIMULATION_ snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_TRAIN_SND, LEN_SEQ_TRAIN, 4); snd_SetSequence (&snd->seq_buf [snd->seq_buflen], &snd->seq_buflen, (UBYTE*)FR_SEQ_SYNC, LEN_SEQ_SYNC, 1); #else /* TI: only 2 bytes set - no SYNCs */ snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_TRAIN_SND, LEN_SEQ_TRAIN, 1); #endif break; case TRAIN_CNF_SND: #ifdef _SIMULATION_ snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_TRAIN_RCV, LEN_SEQ_TRAIN, 4); snd_SetSequence (&snd->seq_buf [snd->seq_buflen], &snd->seq_buflen, (UBYTE*)FR_SEQ_SYNC, LEN_SEQ_SYNC, 1); #else /* TI: only 2 bytes set - no SYNCs */ snd_SetSequence (snd->seq_buf, &snd->seq_buflen, (UBYTE*)FR_SEQ_TRAIN_RCV, LEN_SEQ_TRAIN, 1); #endif break; } } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_SetSequence | +--------------------------------------------------------------------+ PURPOSE : set frame */ GLOBAL void snd_SetSequence (UBYTE *seq_buf, USHORT *seq_buflen, UBYTE *sequence, USHORT seq_len, USHORT repeat) { TRACE_FUNCTION ("snd_SetSequence()"); *seq_buflen += (seq_len * repeat); while (repeat--) { memcpy (seq_buf, sequence, seq_len); seq_buf += seq_len; } } #if defined TRACE_FAD_UL_STATUS || defined _SIMULATION_ LOCAL void trace_fad_ul_frame_type(USHORT cus_frame_type, UBYTE* buf1, USHORT bytes_to_write) { const char type[5] = "DSYT"; char buf[15] = "TISx:0x00-0x00"; if (cus_frame_type < 4) buf[3] = type[cus_frame_type]; if (buf1) BYTE2HEXSTR(*(buf1+1), &buf[7]); BYTE2HEXSTR((UBYTE)bytes_to_write, &buf[12]); TRACE_EVENT (buf); } #endif /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_ra_data_req | +--------------------------------------------------------------------+ PURPOSE : Converts contents of frame descriptor to primitive */ LOCAL void snd_ra_data_req(T_FD *pFD) { #if defined TRACE_FAD_UL_STATUS || defined _SIMULATION_ if (pFD->type EQ FR_STATUS) { trace_fad_ul_frame_type(FR_STATUS, pFD->buf, pFD->len); } /* void t30_ker_debug(CHAR *header, UBYTE *buf, USHORT len); if (pFD->type EQ FR_STATUS) { t30_ker_debug("BCS-RCV", pFD->buf, pFD->len); } */ #endif #ifdef _SIMULATION_ { PALLOC_SDU (ra_data_req, RA_DATA_REQ, (USHORT)(pFD->len<<3)); TRACE_FUNCTION ("snd_ra_data_req()"); ra_data_req->sdu.l_buf = pFD->len<<3; memcpy (&ra_data_req->sdu.buf, pFD->buf, pFD->len); ra_data_req->fr_type = pFD->type; ra_data_req->dtx_flg = DTX_DIS; ra_data_req->status = ST_SA; PSENDX (RA, ra_data_req); } #else l1i_ra_data_req_new(pFD); #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_SendSequence | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL USHORT snd_SendSequence (USHORT bytes_to_send, UBYTE fr_type) { T_SND *snd = &fad_data->snd; USHORT sdu_buf_pos = 0; #ifdef _SIMULATION_ TRACE_FUNCTION ("snd_SendSequence()"); #endif #ifdef _TARGET_ switch (fr_type) { case FR_SYNC: break; case FR_STATUS: case FR_TRAIN: bytes_to_send = 2; break; default: break; } #endif if (snd->bytes_to_send NEQ REPEAT_FOREVER) { if (snd->bytes_to_send > bytes_to_send) snd->bytes_to_send -= bytes_to_send; else snd->bytes_to_send = 0; } snd->FD.type = fr_type; snd->FD.len = (U8)bytes_to_send; while (bytes_to_send) { UBYTE bytes_to_read = MINIMUM(snd->seq_buflen - snd->seq_bufpos, bytes_to_send); memcpy(&snd->FD.buf[sdu_buf_pos], &snd->seq_buf[snd->seq_bufpos], bytes_to_read); sdu_buf_pos += bytes_to_read; snd->seq_bufpos += bytes_to_read; /* reset pos. in sequence */ if (bytes_to_send > bytes_to_read) bytes_to_send -= bytes_to_read; else bytes_to_send = 0; if (snd->seq_bufpos >= snd->seq_buflen) /* check sequence boundary */ snd->seq_bufpos -= snd->seq_buflen; } snd_ra_data_req(&snd->FD); return (snd->bytes_to_send); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_DurationToBytes | +--------------------------------------------------------------------+ PURPOSE : convert duration of sequence to be sent to bytes, taking account of the transmission rate set */ GLOBAL USHORT snd_DurationToBytes (USHORT trans_rate, USHORT duration) { TRACE_FUNCTION ("snd_DurationToBytes()"); return (trans_rate * duration / (8 * 1000)); } #ifdef _SIMULATION_ /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : SetBcsFrameBuffer | +--------------------------------------------------------------------+ PURPOSE : copy HDLC data for buffer sending - add BCS-REC ident & repeats */ LOCAL void SetBcsFrameBuffer (UBYTE *bcs_buf, UBYTE *hdlc_buf, USHORT len, USHORT repeat) { USHORT i, j, k; TRACE_FUNCTION ("SetBcsFrameBuffer()"); for (i = 0; i < len; hdlc_buf++) { for (j = 0; j < repeat; j++) for (k = 0; k < HDLC_REPEAT; i++, k++, bcs_buf++) if (i & 0x0001) *bcs_buf = *hdlc_buf; else *bcs_buf = IDENT_BCS_REC; } } #endif /* +-----------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_BuildStatusFrames | +-----------------------------------------------------------------------+ PURPOSE : build BCS frames from HDLC data received from T30 pass to SBM buffer */ #ifdef _SIMULATION_ GLOBAL void snd_BuildStatusFrames(T_FAD_DATA_REQ *fad_data_req, USHORT max_bytes) #else GLOBAL void snd_BuildStatusFrames(T_FAD_DATA_REQ *fad_data_req) #endif { T_SND *snd = &fad_data->snd; #ifdef _SIMULATION_ USHORT repeat; TRACE_FUNCTION ("snd_BuildStatusFrames()"); snd->final = fad_data_req->final; /* set total bytes to be sent */ repeat = (USHORT)(snd->trans_rate / (BCS_RATE << 3)); snd->data_to_send = fad_data_req->sdu.l_buf * HDLC_REPEAT * repeat; if (snd->data_to_send <= max_bytes) fad_data_req->sdu.l_buf = 0; else { snd->data_to_send = max_bytes; fad_data_req->sdu.l_buf -= (snd->data_to_send / HDLC_REPEAT / repeat); } SetBcsFrameBuffer (&snd->seq_buf [0], &fad_data_req->sdu.buf [fad_data_req->sdu.o_buf], snd->data_to_send, repeat); snd->data_bufpos = 0; if (fad_data_req->sdu.l_buf) fad_data_req->sdu.o_buf += (snd->data_to_send / HDLC_REPEAT / repeat); #else /* _TARGET_ */ snd->data_to_send = fad_data_req->sdu.l_buf >> 3; fad_data_req->sdu.l_buf = 0; snd->data_bufpos = 0; #endif } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_StoreMsgData | +--------------------------------------------------------------------+ PURPOSE : store MSG data and pass to SBM buffer */ GLOBAL void snd_StoreMsgData (T_FAD_DATA_REQ *fad_data_req) { T_SND *snd = &fad_data->snd; TRACE_FUNCTION ("snd_StoreMsgData()"); snd->final = fad_data_req->final; if (fad_data_req->sdu.l_buf) { snd->data_bufpos += (fad_data_req->sdu.l_buf >> 3); sbm_store_prim (fad_data_req); /* pass primitive to send buffer */ } if (!snd->final) { if (snd->data_to_send < snd->threshold) sig_snd_ker_ready_ind (); else snd->send_ready_to_t30 = TRUE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_SendMsgData | +--------------------------------------------------------------------+ PURPOSE : */ GLOBAL BOOL snd_SendMsgData (UBYTE req_frames) { T_SND *snd = &fad_data->snd; T_FRAME_DESC ul_FD; #ifdef _SIMULATION_ TRACE_FUNCTION ("snd_SendMsgData()"); #endif if (sbm_get_frame(&ul_FD, req_frames) EQ TRUE) { U8 sdu_len = (U8)(ul_FD.Len[0] + ul_FD.Len[1]); snd->data_to_send -= sdu_len; snd->FD.type = FR_T4DATA; snd->FD.len = sdu_len; memcpy(snd->FD.buf, ul_FD.Adr[0], ul_FD.Len[0]); memcpy(&snd->FD.buf[ul_FD.Len[0]], ul_FD.Adr[1], ul_FD.Len[1]); snd_ra_data_req(&snd->FD); return TRUE; } else { return FALSE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : FAD_SNDF | | STATE : code ROUTINE : snd_SendBcsData | +--------------------------------------------------------------------+ PURPOSE : */ #ifdef _SIMULATION_ GLOBAL void snd_SendBcsData (USHORT bytes_to_send) #else GLOBAL void snd_SendBcsData (void) #endif { T_SND *snd = &fad_data->snd; TRACE_FUNCTION ("snd_SendBcsData()"); if (!snd->data_to_send) return; snd->FD.type = FR_STATUS; #ifdef _SIMULATION_ if (snd->data_to_send >= bytes_to_send) snd->data_to_send -= bytes_to_send; else { bytes_to_send = snd->data_to_send; snd->data_to_send = 0; } snd->FD.len = (U8)bytes_to_send; memcpy(snd->FD.buf, &snd->seq_buf[snd->data_bufpos], snd->FD.len); snd->data_bufpos += bytes_to_send; #else /* _TARGET_ */ snd->FD.buf[0] = IDENT_BCS_REC; snd->FD.buf[1] = snd->fad_data_req->sdu.buf[snd->data_bufpos++]; snd->FD.len = 2; snd->data_to_send--; #endif /* _TARGET_ */ snd_ra_data_req(&snd->FD); }