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view src/g23m-fad/ppp/ppp_ftxf.c @ 389:5addc2943fa2
scripts/config-headers-new.sh: written, to be tested
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Wed, 17 Jan 2018 19:54:56 +0000 |
parents | 90eb61ecd093 |
children |
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This modul is part of the entity PPP and implements all | procedures and functions as described in the | SDL-documentation (FTX-statemachine) +----------------------------------------------------------------------------- */ #define ENTITY_PPP /*==== INCLUDES =============================================================*/ #include "typedefs.h" /* to get Condat data types */ #include "vsi.h" /* to get a lot of macros */ #include "macdef.h" /* to get a lot of macros */ #include "custom.h" /* to get a lot of macros */ /*lint -efile(766,gsm.h) */ #include "gsm.h" /* to get a lot of macros */ /*lint -efile(766,cnf_ppp.h) */ #include "cnf_ppp.h" /* to get cnf-definitions */ /*lint -efile(766,mon_ppp.h) */ #include "mon_ppp.h" /* to get mon-definitions */ #include "prim.h" /* to get the definitions of used SAP and directions */ #include "dti.h" /* to get the DTILIB definitions */ #include "ppp.h" /* to get the global entity definitions */ #include "ppp_arbf.h" /* to get function interface from arb */ /*==== CONST ================================================================*/ /*==== LOCAL VARS ===========================================================*/ /*==== PRIVATE FUNCTIONS ====================================================*/ /*==== PUBLIC FUNCTIONS =====================================================*/ #ifndef PPP_INT_RAM /* +------------------------------------------------------------------------------ | Function : ftx_init +------------------------------------------------------------------------------ | Description : The function ftx_init() initializes Frame Transmit (FTX) | | Parameters : no parameters | +------------------------------------------------------------------------------ */ GLOBAL void ftx_init () { USHORT i; TRACE_FUNCTION( "ftx_init" ); ppp_data->ftx.acfc = PPP_ACFC_DEFAULT; ppp_data->ftx.pfc = PPP_PFC_DEFAULT; /* * inititialise ACCMTAB */ for(i=0;i<=255;i++) { if(i<0x20) { ppp_data->ftx.accmtab[i] = (PPP_ACCM_DEFAULT & (1UL << i)) ? 0xFF : 0x00; } else if((i EQ PPP_HDLC_FLAG) || (i EQ PPP_HDLC_ESCAPE) || (i EQ PPP_ASCII_DEL)) { ppp_data->ftx.accmtab[i] = 0xFF; } else { ppp_data->ftx.accmtab[i] = 0x00; } } INIT_STATE( PPP_SERVICE_FTX , FTX_DEAD ); } /* ftx_init() */ #endif /* PPP_INT_RAM */ #ifndef PPP_FLASH_ROM /* +------------------------------------------------------------------------------ | Function : ftx_get_frame +------------------------------------------------------------------------------ | Description : The function ftx_get_frame() puts the given packet into a HDLC | frame. A FCS is calculated and put at the the end of the | packet. After that every byte is examined and preceeded with an | escape character when certain condiitions are met. | | This function has been optimized - FCS calculation and escaping | are done in the same loop. | | Parameters : ptype - packet type | packet - pointer to a generic data descriptor | ptr_frame - returns a list of generic data descriptors | +------------------------------------------------------------------------------ */ GLOBAL void ftx_get_frame (USHORT ptype, T_desc2* packet, T_desc_list2* ptr_frame) { T_desc2 *temp_desc1, *temp_desc2; USHORT calc_fcs; USHORT i; UBYTE currentByte; UBYTE escape; TRACE_FUNCTION( "ftx_get_frame" ); /* * create a new descriptor for address, control and protocol field and put * it in front of the linked descriptor list */ /* * 1 octet address field * 1 octet control field * 2 octets protocol field (uncompressed) *---------- * 4 octets */ MALLOC (temp_desc1, (USHORT)(sizeof(T_desc2) - 1 + 4)); temp_desc1->next = (ULONG)packet; packet = temp_desc1; packet->len = 0; /* * if no address and control field compression add both * in LCP packets we need always address and control field */ if((ppp_data->ftx.acfc EQ FALSE) || (ptype EQ DTI_PID_LCP)) { packet->buffer[packet->len] = 0xff; packet->len++; packet->buffer[packet->len] = 0x03; packet->len++; } /* * if no protocol field compression add most significant octet * of the protocol field * in LCP packets we need always uncompressed protocol field */ if((ppp_data->ftx.pfc EQ FALSE) || (ptype > 0x00ff) || (ptype EQ DTI_PID_LCP)) { packet->buffer[packet->len] = (UBYTE)(ptype >> 8); packet->len++; } /* * add protocol field least significant octet */ packet->buffer[packet->len] = (UBYTE)(ptype & 0xff); packet->len++; /* * create complete frame * use async-control-character-map and copy the packet into descriptor with * a size of FTX_GET_DESC_SIZE */ MALLOC (temp_desc1, (USHORT)(sizeof(T_desc2) - 1 + FTX_GET_DESC_SIZE)); temp_desc1->next = (ULONG)NULL; ptr_frame->first = (ULONG)temp_desc1; /* * reset ptr_frame->list_len, it will be incremented by temp_desc1->len * when the packet is completely processed, at the end it will contain * the length of the whole frame in bytes */ ptr_frame->list_len = 0; /* * insert HDLC-Flag - to mark the start of the frame */ temp_desc1->len = 1; temp_desc1->size = 1; temp_desc1->offset = 1; temp_desc1->buffer[0] = PPP_HDLC_FLAG; escape=FALSE; /* * init FCS */ calc_fcs = PPP_INITFCS; /* * ATTENTION: the following two while loops contain equivalent * code - if you edit the code make sure you edit BOTH loops */ if(ptype EQ DTI_PID_LCP) { while(packet NEQ NULL) { i=0; while(i < packet->len) { currentByte = packet->buffer[i]; if(escape EQ TRUE) { temp_desc1->buffer[temp_desc1->len] = currentByte ^ 0x20; calc_fcs=(calc_fcs >> 8) ^ ppp_data->fcstab[(calc_fcs ^ currentByte) & 0xff]; escape=FALSE; i++; } /* * In LCP packets we escape ALL characters below 0x20. * In addition to that PPP_HDLC_FLAG, PPP_HDLC_ESCAPE, * PPP_ASCII_DEL are escaped too. These characters are marked in * in the ACCM table */ else if((currentByte < 0x20) || ppp_data->ftx.accmtab[currentByte]) { temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_ESCAPE; escape = TRUE; } else { temp_desc1->buffer[temp_desc1->len] = currentByte; calc_fcs=(calc_fcs >> 8) ^ ppp_data->fcstab[(calc_fcs ^ currentByte) & 0xff]; i++; } temp_desc1->len++; if(temp_desc1->len >= FTX_GET_DESC_SIZE) { ptr_frame->list_len +=temp_desc1->len; temp_desc2=temp_desc1; MALLOC (temp_desc1, (USHORT)(sizeof(T_desc2) - 1 + FTX_GET_DESC_SIZE)); temp_desc1->len=0; temp_desc1->next = (ULONG)NULL; temp_desc2->next=(ULONG)temp_desc1; } } temp_desc2=packet; packet=(T_desc2*)packet->next; MFREE(temp_desc2); } ptr_frame->list_len +=temp_desc1->len; } else { while(packet NEQ NULL) { i=0; while(i < packet->len) { currentByte = packet->buffer[i]; if(escape EQ TRUE) { temp_desc1->buffer[temp_desc1->len] = currentByte ^ 0x20; calc_fcs=(calc_fcs >> 8) ^ ppp_data->fcstab[(calc_fcs ^ currentByte) & 0xff]; escape=FALSE; i++; } /* * In packets other than LCP we escape only those characters * below 0x20 that are marked in the ACCM table. * In addition to that PPP_HDLC_FLAG, PPP_HDLC_ESCAPE, * PPP_ASCII_DEL are escaped too. These characters are marked in * in the same table. */ else if(ppp_data->ftx.accmtab[currentByte]) { temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_ESCAPE; escape = TRUE; } else { temp_desc1->buffer[temp_desc1->len] = currentByte; calc_fcs=(calc_fcs >> 8) ^ ppp_data->fcstab[(calc_fcs ^ currentByte) & 0xff]; i++; } temp_desc1->len++; if(temp_desc1->len >= FTX_GET_DESC_SIZE) { ptr_frame->list_len +=temp_desc1->len; temp_desc2=temp_desc1; MALLOC (temp_desc1, (USHORT)(sizeof(T_desc2) - 1 + FTX_GET_DESC_SIZE)); temp_desc1->len=0; temp_desc1->next = (ULONG)NULL; temp_desc2->next=(ULONG)temp_desc1; } } temp_desc2=packet; packet=(T_desc2*)packet->next; MFREE(temp_desc2); } ptr_frame->list_len +=temp_desc1->len; } /* * finish FCS calculation */ calc_fcs ^= 0xffff; /* * create a new descriptor for FCS and HDLC-Flag * put the descriptor at the end of the descriptor list * * FCS must be escaped too, allocate two bytes more - just in case * 2 for FCS, 2 for PPP_HDLC_ESCAPE, 1 for PPP_HDLC_FLAG * */ if(temp_desc1->len + 5 >= FTX_GET_DESC_SIZE) { MALLOC (temp_desc2, (USHORT)(sizeof(T_desc2) - 1 + 5)); temp_desc2->len = 0; temp_desc2->size = 0; temp_desc2->offset = 0; temp_desc2->next = (ULONG)NULL; temp_desc1->next = (ULONG)temp_desc2; temp_desc1 = temp_desc2; } /* * insert the FCS, escape when necessary */ #ifdef _SIMULATION_ temp_desc1->buffer[temp_desc1->len]=(UBYTE)(PPP_GOODFCS >> 8); temp_desc1->buffer[temp_desc1->len+1]=(UBYTE)(PPP_GOODFCS & 0x00ff); temp_desc1->len += 2; ptr_frame->list_len += 2; #else /* _SIMULATION_ */ /* * least significant octet first */ if(ptype EQ DTI_PID_LCP) { currentByte = (UBYTE)(calc_fcs & 0x00ff); if((currentByte < 0x20) || ppp_data->ftx.accmtab[currentByte]) { temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_ESCAPE; temp_desc1->buffer[temp_desc1->len+1] = currentByte ^ 0x20; temp_desc1->len += 2; ptr_frame->list_len += 2; } else { temp_desc1->buffer[temp_desc1->len] = currentByte; temp_desc1->len++; ptr_frame->list_len++; } currentByte = (UBYTE)(calc_fcs >> 8); if((currentByte < 0x20) || ppp_data->ftx.accmtab[currentByte]) { temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_ESCAPE; temp_desc1->buffer[temp_desc1->len+1] = currentByte ^ 0x20; temp_desc1->len += 2; ptr_frame->list_len += 2; } else { temp_desc1->buffer[temp_desc1->len] = currentByte; temp_desc1->len++; ptr_frame->list_len++; } } else { currentByte = (UBYTE)(calc_fcs & 0x00ff); if(ppp_data->ftx.accmtab[currentByte]) { temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_ESCAPE; temp_desc1->buffer[temp_desc1->len+1] = currentByte ^ 0x20; temp_desc1->len += 2; ptr_frame->list_len += 2; } else { temp_desc1->buffer[temp_desc1->len] = currentByte; temp_desc1->len++; ptr_frame->list_len++; } currentByte = (UBYTE)(calc_fcs >> 8); if(ppp_data->ftx.accmtab[currentByte]) { temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_ESCAPE; temp_desc1->buffer[temp_desc1->len+1] = currentByte ^ 0x20; temp_desc1->len += 2; ptr_frame->list_len += 2; } else { temp_desc1->buffer[temp_desc1->len] = currentByte; temp_desc1->len++; ptr_frame->list_len++; } } #endif /* _SIMULATION_ */ /* * insert HDLC-Flag - to mark the start of the frame */ temp_desc1->buffer[temp_desc1->len] = PPP_HDLC_FLAG; temp_desc1->len++; temp_desc1->size = temp_desc1->len; ptr_frame->list_len++; } /* ftx_get_frame() */ #endif /* PPP_FLASH_ROM */ #ifndef PPP_INT_RAM /* +------------------------------------------------------------------------------ | Function : ftx_check_frame +------------------------------------------------------------------------------ | Description : The function ftx_check_frame() checks for flag at begin and end | of the frame and calculates length of frame. | | Parameters : ptr_frame - gives just a frame and returns a frame with length | +------------------------------------------------------------------------------ */ GLOBAL void ftx_check_frame (T_desc_list2* ptr_frame) { T_desc2* frame; T_desc2* temp_desc; UBYTE last_byte; TRACE_FUNCTION( "ftx_check_frame" ); frame = (T_desc2*)ptr_frame->first; while((frame) && (frame->len EQ 0)) frame = (T_desc2*)frame->next; if(frame) { /* * if the first character isnt the HDLC flag then * create a new first data descriptor containing just the HDLC flag */ if(frame->buffer[0] NEQ PPP_HDLC_FLAG) { MALLOC (frame, (USHORT)(sizeof(T_desc2) - 1 + 1)); frame->next = ptr_frame->first; frame->len = 1; frame->buffer[0] = PPP_HDLC_FLAG; ptr_frame->first = (ULONG)frame; } /* * search for the last character and if it isnt the HDLC flag then * create a new last data descriptor containing just the HDLC flag. * calculate length of whole data. */ ptr_frame->list_len = 0; for(frame = (T_desc2*)ptr_frame->first; frame; frame = (T_desc2*)frame->next) { if(frame->len) { ptr_frame->list_len+= frame->len; last_byte = frame->buffer[frame->len - 1]; } temp_desc = frame; } if(last_byte NEQ PPP_HDLC_FLAG) /*lint !e644 last_byte may not have been initialized */ { MALLOC (frame, (USHORT)(sizeof(T_desc2) - 1 + 1)); frame->next = (ULONG)NULL; frame->len = 1; frame->buffer[0] = PPP_HDLC_FLAG; temp_desc->next = (ULONG)frame; /*lint !e771 temp_desc conceivably not initialized */ } } else { /* * free the empty frame */ arb_discard_packet((T_desc2*)ptr_frame->first); ptr_frame->first = (ULONG)NULL; ptr_frame->list_len = 0; } } /* ftx_check_frame() */ #endif /* PPP_INT_RAM */