FreeCalypso > hg > fc-tourmaline
view src/g23m-gprs/cci/cci_fbsf.c @ 263:b5e8dfd114a7
Switch_ON(): go into charging boot mode on either CHGSTS or CHGPRES
If someone were to plug and then unplug a charger into a switched-off
phone in an extremely brief "glitch" manner, we should do an automatic
power-off on boot in this condition. When we were checking only
CHGPRES in Switch_ON(), we would go into Misc boot state instead,
which is undesirable. Now if we have a CHGSTS but not CHGPRES
condition, we will go into charging boot mode, and FCBM will then
do the automatic power-off upon detecting absence of the charger
in its periodic polling.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 14 May 2021 05:50:36 +0000 |
| parents | fa8dc04885d8 |
| children |
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/* +----------------------------------------------------------------------------- | Project : | Modul : cci_fbsf.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 module implements local functions for service FBS of | entity CCI. +----------------------------------------------------------------------------- */ #define CCI_FBSF_C #define ENTITY_LLC /*==== INCLUDES =============================================================*/ #include <string.h> #include "typedefs.h" /* to get Condat data types */ #include "vsi.h" /* to get a lot of macros */ #include "macdef.h" #include "gprs.h" #include "gsm.h" /* to get a lot of macros */ #include "cnf_llc.h" /* to get cnf-definitions */ #include "mon_llc.h" /* to get mon-definitions */ #include "prim.h" /* to get the definitions of used SAP and directions */ #include "cci.h" /* to get the global entity definitions */ #include "llc.h" /* to get the global entity definitions */ #include "cci_fbsf.h" #include "llc_txp.h" #include "llc_rxp.h" #ifndef TI_PS_OP_CIPH_DRIVER #ifdef _GEA_SIMULATION_ #include "cci_hw_sim.h" #endif #if !defined(_GEA_SIMULATION_) && !defined(LL_2to1) #include "config/chipset.cfg" #if (CHIPSET == 12) || (CHIPSET == 14) #include "cci_gea_start.h" #endif /* CHIPSET */ #endif /* ! _GEA_SIMULATION_ && !LL_2to1 */ /* local buffer for the copy of ciphering key */ static USHORT tmp_key[4]; /*==== CONST ================================================================*/ /*==== LOCAL VARS ===========================================================*/ #ifdef _GEA_SIMULATION_ USHORT* hw_reg = NULL; #endif /*==== LOCAL FUNCTION ===========================================================*/ LOCAL void ciph_get_result (T_CIPH_out_data *out_data, U8 *status); LOCAL void ciph_init (void); LOCAL void ciph_reset_hw (void); LOCAL UBYTE ciph_fcs_check (UBYTE *fcs_start); LOCAL void ciph_get_ciphered_data (T_CIPH_out_data *out_data); LOCAL void ciph_get_deciphered_data (T_CIPH_out_data *out_data, U8 *status); LOCAL void ciph_fill_ul_reg (T_CIPH_cipher_req_parms *cipher_req_parms, T_CIPH_in_data_list *in_data_list); LOCAL void ciph_fill_dl_reg (T_CIPH_cipher_req_parms *cipher_req_parms, T_CIPH_in_data_list *in_data_list); /*==== PRIVATE FUNCTIONS ====================================================*/ #ifdef LLC_TRACE_GEA_PARAM LOCAL void cci_trace_gea_param( void ); #endif /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : ciph_cipher_req_sim +------------------------------------------------------------------------------ | Description : Handles the primitive ciph_cipher_req. It is used to request | ciphering or deciphering of a LLC PDU. | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void ciph_cipher_req_sim (T_CIPH_cipher_req_parms *cipher_req_parms_ptr, T_CIPH_in_data_list *in_data_ptr, T_CIPH_out_data *out_data_ptr, U8 *status) { USHORT volatile *cntl = cci_data->fbs.cntl_reg; int i = 0; ULONG cnt = 0; TRACE_FUNCTION( "ciph_cipher_req" ); /* reset GEA (enables and then disables clock) */ ciph_reset_hw(); *cntl |= CL_ENABLE; /* fill UL or DL configuration and data registers */ if (cci_data->fbs.ciph_params.direction == CIPH_UPLINK_DIR) { ciph_fill_ul_reg (cipher_req_parms_ptr, in_data_ptr ); #ifdef LL_2to1 *cntl = (*cntl & UL_DL_UP) | START; #else /* LL_2to1 */ #if (CHIPSET == 12) || (CHIPSET == 14) /* GEA work-around */ *cntl = (*cntl & UL_DL_UP); gea_start(); #else *cntl = (*cntl & UL_DL_UP) | START; #endif #endif /* LL_2to1 */ } else { ciph_fill_dl_reg (cipher_req_parms_ptr, in_data_ptr ); #ifdef LL_2to1 *cntl |= (UL_DL_DOWN | START); #else /* LL_2to1 */ #if (CHIPSET == 12) || (CHIPSET == 14) /* GEA work-around */ *cntl |= (UL_DL_DOWN); gea_start(); #else *cntl |= (UL_DL_DOWN | START); #endif #endif /* LL_2to1 */ } out_data_ptr->len = 0; for (i = 0; i < in_data_ptr->c_in_data; i++) { out_data_ptr->len += in_data_ptr->ptr_in_data[i].len; } if (cci_data->fbs.ciph_params.direction == CIPH_DOWNLINK_DIR) { out_data_ptr->len -= FCS_SIZE; } else { out_data_ptr->len += FCS_SIZE; } #ifdef _GEA_SIMULATION_ if (cci_data->fbs.ciph_params.direction == CIPH_UPLINK_DIR) { ciph_hw_sim_cipher(out_data_ptr->len); } else { ciph_hw_sim_decipher(); } #endif /* poll until data is processed */ if(cci_data->fbs.cci_info_trace){ while (*(cci_data->fbs.status_reg) & CHECK_WORKING){ cnt += 1; }; TRACE_EVENT_P1("INFO CCI: ciphering completed, counter: %d", cnt); } else { while (*(cci_data->fbs.status_reg) & CHECK_WORKING){ }; } /* verify ciphering key, whether it has been corrupted */ if(cci_data->fbs.cci_info_trace){ if(*cci_data->fbs.kc_reg1 != tmp_key[0] || *cci_data->fbs.kc_reg2 != tmp_key[1] || *cci_data->fbs.kc_reg3 != tmp_key[2] || *cci_data->fbs.kc_reg4 != tmp_key[3]) { TRACE_ERROR("CCI ERROR: Ciphering key has been corrupted!!"); TRACE_EVENT_P4("CCI: original key: %04x %04x %04x %04x %04x %04x", tmp_key[0], tmp_key[1], tmp_key[2], tmp_key[3]); TRACE_EVENT_P4("CCI: kc key: %04x %04x %04x %04x %04x %04x", *cci_data->fbs.kc_reg1, *cci_data->fbs.kc_reg2, *cci_data->fbs.kc_reg3, *cci_data->fbs.kc_reg4); } } /* and finally handle the result */ ciph_get_result(out_data_ptr, status); /* disable clock until new frames are to process */ *cntl &= CL_DISABLE; } /* +------------------------------------------------------------------------------ | Function : ciph_init_cipher_req_sim +------------------------------------------------------------------------------ | Description : Handles the primitive ciph_init_cipher_req_sim. | | Parameters : | +------------------------------------------------------------------------------ */ GLOBAL void ciph_init_cipher_req_sim (T_CIPH_init_cipher_req_parms *init_cipher_req_parms_ptr, void (*read_data) (void)) { if (!cci_data->fbs.initialized){ ciph_init(); cci_data->fbs.initialized = TRUE; } cci_data->fbs.ciph_params = *init_cipher_req_parms_ptr; } /* +------------------------------------------------------------------------------ | Function : ciph_get_result +------------------------------------------------------------------------------ | Description : Handles the function ciph_get_result. This function gets the | ciphered data in uplink direction or deciphered data in | downlink direction | | Parameters : +------------------------------------------------------------------------------ */ LOCAL void ciph_get_result (T_CIPH_out_data *out_data, U8 *status) { TRACE_FUNCTION( "ciph_get_result" ); switch(cci_data->fbs.ciph_params.direction) { case CIPH_UPLINK_DIR: if( *(cci_data->fbs.status_reg) & CHECK_WORKING ) { break; } else { ciph_get_ciphered_data (out_data); } break; case CIPH_DOWNLINK_DIR: if( *(cci_data->fbs.status_reg) & CHECK_WORKING ) { break; } else { ciph_get_deciphered_data (out_data, status); } break; default: TRACE_ERROR( "TIMER unexpected" ); break; } } /* ciph_get_result() */ /* +------------------------------------------------------------------------------ | Function : ciph_init +------------------------------------------------------------------------------ | Description : The function ciph_init() initializes the registers. | | Parameters : | +------------------------------------------------------------------------------ */ LOCAL void ciph_init ( void ) { USHORT *reg; TRACE_FUNCTION( "ciph_init" ); #ifdef _GEA_SIMULATION_ TRACE_EVENT ("GEA simulation is used"); /* * initialization of registers - do it only once to handle restart of CCI * 'hw_req' points to a set of 16 bit registers * 'fbs.simulated_reg_buffer' points to a 1596 bytes buffer for data */ if (hw_reg == NULL) { MALLOC(hw_reg, sizeof(USHORT) * 26+1 ); } memset(hw_reg, 0, sizeof(USHORT) * 26+1); if (cci_data->fbs.simulated_reg_buffer == NULL) { MALLOC(cci_data->fbs.simulated_reg_buffer, 1596); } memset(cci_data->fbs.simulated_reg_buffer, 0, 1596); reg = &hw_reg[0]; #else TRACE_EVENT ("GEA hardware is used"); reg = (USHORT *)START_ADRESS; #endif #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample*/ /* 01 */ cci_data->fbs.cntl_reg = reg++; /* 00 */ /* 02 */ cci_data->fbs.status_reg = reg++; /* 02 */ /* 03 */ cci_data->fbs.status_irq_reg= reg++; /* 04 */ /* 04 */ cci_data->fbs.conf_ul_reg1 = reg++; /* 06 */ /* 05 */ cci_data->fbs.conf_ul_reg2 = reg++; /* 08 */ /* 06 */ cci_data->fbs.conf_ul_reg3 = reg++; /* 0A */ /* 07 */ cci_data->fbs.conf_ul_reg4 = reg++; /* 0C */ /* 08 */ cci_data->fbs.conf_ul_reg5 = reg++; /* 0E */ /* 09 */ cci_data->fbs.conf_dl_reg1 = reg++; /* 10 */ /* 10 */ cci_data->fbs.conf_dl_reg2 = reg++; /* 12 */ /* 11 */ cci_data->fbs.conf_dl_reg3 = reg++; /* 14 */ /* 12 */ cci_data->fbs.conf_dl_reg4 = reg++; /* 16 */ /* 13 */ cci_data->fbs.conf_dl_reg5 = reg++; /* 18 */ /* 14 */ cci_data->fbs.kc_reg1 = reg++; /* 1A */ /* 15 */ cci_data->fbs.kc_reg2 = reg++; /* 1C */ /* 16 */ cci_data->fbs.kc_reg3 = reg++; /* 1E */ /* 17 */ cci_data->fbs.kc_reg4 = reg++; /* 20 */ /* 22 */ reg++; /* 22 */ /* 22 */ reg++; /* 24 */ /* 22 */ reg++; /* 26 */ /* 22 */ reg++; /* 28 */ /* 18 */ cci_data->fbs.fcs_ul_reg1 = reg++; /* 2A */ /* 19 */ cci_data->fbs.fcs_ul_reg2 = reg++; /* 2C */ /* 20 */ cci_data->fbs.fcs_dl_reg1 = reg++; /* 2E */ /* 21 */ cci_data->fbs.fcs_dl_reg2 = reg++; /* 30 */ /* 22 */ cci_data->fbs.switch_reg = reg++; /* 32 */ /* 25 */ cci_data->fbs.data16_reg = reg++; /* 34 */ /* 26 */ cci_data->fbs.data8_reg = (UBYTE*)reg; /* 36 */ *cci_data->fbs.switch_reg = 0; #else /* 01 */ cci_data->fbs.cntl_reg = reg++; /* 00 */ /* 02 */ cci_data->fbs.status_reg = reg++; /* 02 */ /* 03 */ cci_data->fbs.status_irq_reg= reg++; /* 04 */ /* 04 */ cci_data->fbs.conf_ul_reg1 = reg++; /* 06 */ /* 05 */ cci_data->fbs.conf_ul_reg2 = reg++; /* 08 */ /* 06 */ cci_data->fbs.conf_ul_reg3 = reg++; /* 0A */ /* 07 */ cci_data->fbs.conf_ul_reg4 = reg++; /* 0C */ /* 08 */ cci_data->fbs.conf_ul_reg5 = reg++; /* 0E */ /* 09 */ cci_data->fbs.conf_dl_reg1 = reg++; /* 10 */ /* 10 */ cci_data->fbs.conf_dl_reg2 = reg++; /* 12 */ /* 11 */ cci_data->fbs.conf_dl_reg3 = reg++; /* 14 */ /* 12 */ cci_data->fbs.conf_dl_reg4 = reg++; /* 16 */ /* 13 */ cci_data->fbs.conf_dl_reg5 = reg++; /* 18 */ /* 14 */ cci_data->fbs.kc_reg1 = reg++; /* 1A */ /* 15 */ cci_data->fbs.kc_reg2 = reg++; /* 1C */ /* 16 */ cci_data->fbs.kc_reg3 = reg++; /* 1E */ /* 17 */ cci_data->fbs.kc_reg4 = reg++; /* 20 */ /* 18 */ cci_data->fbs.fcs_ul_reg1 = reg++; /* 22 */ /* 19 */ cci_data->fbs.fcs_ul_reg2 = reg++; /* 24 */ /* 20 */ cci_data->fbs.fcs_dl_reg1 = reg++; /* 26 */ /* 21 */ cci_data->fbs.fcs_dl_reg2 = reg++; /* 28 */ /* 22 */ reg++; /* 2A */ /* 23 */ reg++; /* 2C */ /* 24 */ reg++; /* 2E */ /* 25 */ cci_data->fbs.data16_reg = reg++; /* 30 */ /* 26 */ cci_data->fbs.data8_reg = (UBYTE*)reg; /* 32 */ #endif /* Board 61 or 71*/ #ifdef _GEA_SIMULATION_ cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer; #endif #ifndef _GEA_SIMULATION_ TRACE_EVENT ("Received FCS will be verified"); #endif /* finaly reset the HW */ ciph_reset_hw(); /* initialize flag for CCI info trace */ cci_data->fbs.cci_info_trace = FALSE; /* initialize freed partition counter */ cci_data->fbs.cci_freed_partition = 0; } /* ciph_init() */ /* +------------------------------------------------------------------------------ | Function : ciph_reset_hw +------------------------------------------------------------------------------ | Description : Resets the hardware | +------------------------------------------------------------------------------ */ LOCAL void ciph_reset_hw ( void ) { USHORT volatile *cntl = cci_data->fbs.cntl_reg; TRACE_FUNCTION( "ciph_reset_hw" ); /* making the clock enable */ *cntl |= CL_ENABLE; /* start reset in both directions and disable interrupt */ *cntl &= ~(RESET_UL | RESET_DL | IT_ENABLE); #ifdef _GEA_SIMULATION_ *cci_data->fbs.status_reg &= NOT_WORKING; /* simulate reset complete */ *cntl |= RESET_UL; *cntl |= RESET_DL; #endif /* wait until reset is ready (both bits back high) */ while ((*cntl & (RESET_UL|RESET_DL)) != (RESET_UL|RESET_DL)) ; /* disable clock until new frames are to process */ *cntl &= CL_DISABLE; } /* ciph_reset_hw() */ /* +------------------------------------------------------------------------------ | Function : ciph_fcs_check +------------------------------------------------------------------------------ | Description : The function compares the 3 bytes FCS for downlink direction | | Parameters : *fcs_start - pointer to beginning of fcs field | | Returns : CCI_FCS_PASSED - if equal | CCI_FCS_FAILED - if NOT equal +------------------------------------------------------------------------------ */ LOCAL UBYTE ciph_fcs_check (UBYTE* fcs_start) { TRACE_FUNCTION( "ciph_fcs_check" ); #ifdef _CHECK_RECEIVED_FCS_ #ifdef _GEA_SIMULATION_ /* * Compare FCS, taking byte ordering of FCS registers into account (Intel * format: high-/lowbyte swaped) */ if (* fcs_start == (UBYTE) (*cci_data->fbs.fcs_dl_reg1 & 0x00FF) && *(fcs_start+1) == (UBYTE)((*cci_data->fbs.fcs_dl_reg1 & 0xFF00) >> 8) && *(fcs_start+2) == (UBYTE) (*cci_data->fbs.fcs_dl_reg2 & 0x00FF) ) { /* clear bit to indicate FCS is ok */ *cci_data->fbs.status_reg &= ~(FCS_FALSE_BIT); } else { /* set bit to indicate FCS is false */ *cci_data->fbs.status_reg |= FCS_FALSE_BIT; } /* * Check, if FCS false bit is set */ if (*cci_data->fbs.status_reg & FCS_FALSE_BIT) { TRACE_EVENT("Info: Received FCS is wrong"); return CIPH_FCS_ERROR; } #endif /* _GEA_SIMULATION_ */ #endif /* _CHECK_RECEIVED_FCS_ */ #ifndef _GEA_SIMULATION_ /* * Check, if FCS false bit is set */ if (*cci_data->fbs.status_reg & FCS_FALSE_BIT) { TRACE_0_INFO("Received FCS is wrong"); return CIPH_FCS_ERROR; } #endif /* _GEA_SIMULATION_ */ return CIPH_CIPH_PASS; } /* ciph_fcs_check() */ /* +------------------------------------------------------------------------------ | Function : ciph_get_ciphered_data +------------------------------------------------------------------------------ | Description : The function ciph_get_ciphered_data() copies the result of the ciphered | data to destination buffer. | | Parameters : | +------------------------------------------------------------------------------ */ LOCAL void ciph_get_ciphered_data (T_CIPH_out_data *out_data) { int frame16, frame8, i; USHORT *sdu_data16; UBYTE *sdu_data8; TRACE_FUNCTION( "ciph_get_ciphered_data" ); i = out_data->len - FCS_SIZE; frame16 = i / 2; frame8 = i % 2; #ifdef _GEA_SIMULATION_ cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer; #endif /* _GEA_SIMULATION_ */ sdu_data16 = (USHORT*)out_data->buf; #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 1; #ifdef LLC_TRACE_GEA_PARAM cci_trace_gea_param(); #endif #endif for (i=0; i<frame16; i++) { #ifdef _GEA_SIMULATION_ ciph_reg16_read_sim(); #endif *sdu_data16 = *cci_data->fbs.data16_reg; sdu_data16++; } sdu_data8 = (UBYTE*)sdu_data16; if (frame8 != 0) { #ifdef _GEA_SIMULATION_ ciph_reg8_read_sim(); #endif *sdu_data8 = *cci_data->fbs.data8_reg; sdu_data8++; } #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 0; #endif /* * Copy FCS to destination sdu, taking byte ordering of FCS registers * into account, e.g.: * reg1 reg2 sdu * 29 FC xx 36 -> FC 29 36 */ *sdu_data8 = (UBYTE) (*cci_data->fbs.fcs_ul_reg1 & 0x00FF); sdu_data8++; *sdu_data8 = (UBYTE)((*cci_data->fbs.fcs_ul_reg1 & 0xFF00) >> 8); sdu_data8++; *sdu_data8 = (UBYTE) (*cci_data->fbs.fcs_ul_reg2 & 0x00FF); } /* ciph_get_ciphered_data() */ /* +------------------------------------------------------------------------------ | Function : ciph_get_deciphered_data +------------------------------------------------------------------------------ | Description : The function ciph_get_deciphered_data() .... | | Parameters : T_CCI_DECIPHER_CNF *decipher_cnf | +------------------------------------------------------------------------------ */ LOCAL void ciph_get_deciphered_data (T_CIPH_out_data *out_data, U8 *status) { int i, frame8, frame16; USHORT *sdu_data16; UBYTE *sdu_data8; TRACE_FUNCTION( "ciph_get_deciphered_data" ); i = out_data->len; frame16 = i / 2; frame8 = i % 2; #ifdef _GEA_SIMULATION_ cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer; #endif sdu_data16 = (USHORT*)out_data->buf; #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 1; #endif for (i=0; i<frame16; i++) { #ifdef _GEA_SIMULATION_ ciph_reg16_read_sim(); #endif *sdu_data16 = *cci_data->fbs.data16_reg; sdu_data16++; } sdu_data8 = (UBYTE*)sdu_data16; if (frame8 != 0) { #ifdef _GEA_SIMULATION_ ciph_reg8_read_sim(); #endif *sdu_data8 = *cci_data->fbs.data8_reg; sdu_data8++; } #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 0; #endif /* * Get result from FCS calculation */ *status = ciph_fcs_check(sdu_data8); } /* ciph_get_deciphered_data() */ /* +------------------------------------------------------------------------------ | Function : ciph_fill_ul_reg +------------------------------------------------------------------------------ | Description : The function ciph_fill_ul_reg() fills the uplink registers. | | Parameters : +------------------------------------------------------------------------------ */ LOCAL void ciph_fill_ul_reg ( T_CIPH_cipher_req_parms *cipher_req_parms, T_CIPH_in_data_list *in_data_list ) { int i, j; int frame8; UBYTE *desc_data8; U16 len = 0; TRACE_FUNCTION( "ciph_fill_ul_reg" ); /* * setting the protected mode variable */ if (cipher_req_parms->gprs_parameters.pm EQ CIPH_PM_PROTECTED) { *cci_data->fbs.conf_ul_reg1 |= PROTECTED; } else { *cci_data->fbs.conf_ul_reg1 &= NON_PROTECTED; } /* * FCS is always calculated */ *cci_data->fbs.conf_ul_reg1 |= FCS_COMPUTED; /* * direction is uplink */ /* Direction muss noch in init function gesetzt werden */ *cci_data->fbs.conf_ul_reg1 &= D_UL; if (cci_data->fbs.ciph_params.algo NEQ CIPH_EA0) { *cci_data->fbs.conf_ul_reg1 |= ENCRYPT; if(cci_data->fbs.ciph_params.algo EQ CIPH_EA1) { *cci_data->fbs.conf_ul_reg1 &= GEA_FIRST; } else if(cci_data->fbs.ciph_params.algo EQ CIPH_EA2) { *cci_data->fbs.conf_ul_reg1 |= GEA_SECOND; } else { TRACE_ERROR ("Illegal ciphering_algorithm"); } /* * if the condition is CCI_CIPHER_NO_ALGORITHM we don't use subsequent statements */ *cci_data->fbs.kc_reg1 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[1]) << 8)+ (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[0]); *cci_data->fbs.kc_reg2 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[3]) << 8)+ (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[2]); *cci_data->fbs.kc_reg3 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[5]) << 8)+ (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[4]); *cci_data->fbs.kc_reg4 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[7]) << 8)+ (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[6]); /* store ciphering key in the local buffer for later verification */ if(cci_data->fbs.cci_info_trace){ tmp_key[0] = *cci_data->fbs.kc_reg1; tmp_key[1] = *cci_data->fbs.kc_reg2; tmp_key[2] = *cci_data->fbs.kc_reg3; tmp_key[3] = *cci_data->fbs.kc_reg4; } /* * FRAME DEPENDENT CIPHERING INPUT entity is ULONG in the primitive */ *cci_data->fbs.conf_ul_reg4 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input); *cci_data->fbs.conf_ul_reg5 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input >> 16); /* * it is assumed that MSB is first 16 bit and LSB part is last 16 bits */ } else { /* * in this case we don't fill the registers that contain ciphering keys */ *cci_data->fbs.conf_ul_reg1 &= NO_ENCRYPT; } /* * Enter LLC-PDU size in bytes */ for (i = 0; i < in_data_list->c_in_data; i++) { len += in_data_list->ptr_in_data[i].len; } *cci_data->fbs.conf_ul_reg2 = (USHORT)len; /* * conf_ul_reg3 is seperated into 2 parts of UBYTE: * -> lowbyte = N202 * -> hightbyte = LLC-PDU header size in bytes (indicate the offset of information) */ *cci_data->fbs.conf_ul_reg3 = (USHORT)((cipher_req_parms->gprs_parameters.header_size << 8) | CIPH_N202); #ifdef _GEA_SIMULATION_ cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer; #endif *cci_data->fbs.conf_ul_reg1 &= NO_INPUT_SHIFT; #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 1; #ifdef LLC_TRACE_GEA_PARAM cci_trace_gea_param(); #endif #endif for (i = 0; i < in_data_list->c_in_data; i++) { desc_data8 = (U8*)in_data_list->ptr_in_data[i].buf; frame8 = in_data_list->ptr_in_data[i].len; for (j=0; j < frame8; j++) { *cci_data->fbs.data8_reg = *desc_data8; #ifdef _GEA_SIMULATION_ ciph_reg8_write_sim(); #endif desc_data8++; } } #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 0; #endif } /* ciph_fill_ul_reg() */ /* +------------------------------------------------------------------------------ | Function : ciph_fill_dl_reg +------------------------------------------------------------------------------ | Description : The function ciph_fill_dl_reg() | | Parameters : | +------------------------------------------------------------------------------ */ LOCAL void ciph_fill_dl_reg (T_CIPH_cipher_req_parms *cipher_req_parms, T_CIPH_in_data_list *in_data_list ) { ULONG i, j; ULONG frame8; UBYTE *desc_data8; ULONG len = 0; TRACE_FUNCTION( "ciph_fill_dl_reg" ); /* * setting the protected mode variable */ if(cipher_req_parms->gprs_parameters.pm EQ CIPH_PM_PROTECTED) { *cci_data->fbs.conf_dl_reg1 |= PROTECTED; } else { *cci_data->fbs.conf_dl_reg1 &= NON_PROTECTED; } /* * FCS is always calculated */ *cci_data->fbs.conf_dl_reg1 |= FCS_COMPUTED; /* * data always copied aligned independent */ *cci_data->fbs.conf_dl_reg1 &= NO_INPUT_SHIFT; /* * direction is downlink */ *cci_data->fbs.conf_dl_reg1 |= D_DL; if(cci_data->fbs.ciph_params.algo NEQ CIPH_EA0) { *cci_data->fbs.conf_dl_reg1 |= ENCRYPT; if(cci_data->fbs.ciph_params.algo EQ CIPH_EA1) { *cci_data->fbs.conf_dl_reg1 &= GEA_FIRST; } else if(cci_data->fbs.ciph_params.algo EQ CIPH_EA2) { *cci_data->fbs.conf_dl_reg1 |= GEA_SECOND; } else { TRACE_ERROR ("Illegal ciphering_algorithm"); } *cci_data->fbs.kc_reg1 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[1]) << 8) + (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[0]); *cci_data->fbs.kc_reg2 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[3]) << 8) + (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[2]); *cci_data->fbs.kc_reg3 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[5]) << 8) + (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[4]); *cci_data->fbs.kc_reg4 = (USHORT)((USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[7]) << 8) + (USHORT)(cci_data->fbs.ciph_params.ptr_ck->ck_element[6]); /* store ciphering key in local buffer for later verification */ if(cci_data->fbs.cci_info_trace){ tmp_key[0] = *cci_data->fbs.kc_reg1; tmp_key[1] = *cci_data->fbs.kc_reg2; tmp_key[2] = *cci_data->fbs.kc_reg3; tmp_key[3] = *cci_data->fbs.kc_reg4; } /* * FRAME DEPENDENT CIPHERING INPUT entity is ULONG in the primitive */ *cci_data->fbs.conf_dl_reg4 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input); *cci_data->fbs.conf_dl_reg5 = (USHORT)(cipher_req_parms->gprs_parameters.ciphering_input >> 16); } else { /* * in this case we don't fill the registers that contain ciphering keys */ *cci_data->fbs.conf_dl_reg1 &= NO_ENCRYPT; } /* * Write length of LLC-PDU in bytes including FCS */ for (i = 0; i < in_data_list->c_in_data; i++) { len += in_data_list->ptr_in_data[i].len; } *cci_data->fbs.conf_dl_reg2 = (USHORT)len; /* * conf_dl_reg3 is seperated into 2 parts of UBYTE: * -> lowbyte = N202 * -> hightbyte = LLC-PDU header size in bytes (indicate the offset of information) */ *cci_data->fbs.conf_dl_reg3 = (USHORT)((cipher_req_parms->gprs_parameters.header_size << 8) | CIPH_N202); #ifdef _GEA_SIMULATION_ cci_data->fbs.simulated_reg = cci_data->fbs.simulated_reg_buffer; #endif #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 1; #endif for (i = 0; i < in_data_list->c_in_data; i++) { desc_data8 = (UBYTE*)in_data_list->ptr_in_data[i].buf; frame8 = in_data_list->ptr_in_data[i].len; for (j=0; j < frame8; j++){ *cci_data->fbs.data8_reg = desc_data8[j]; #ifdef _GEA_SIMULATION_ ciph_reg8_write_sim(); #endif } } #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ *cci_data->fbs.switch_reg = 0; #endif } /* ciph_fill_dl_reg() */ #if (BOARD == 61 OR BOARD == 71) /* G-Sample or I-Sample */ #ifdef LLC_TRACE_GEA_PARAM LOCAL void cci_trace_gea_param( void ) { TRACE_EVENT_P9( "cci_trace_gea_param_1 %04X %04X %04X %04X %04X %04X %04X %04X %04X", *cci_data->fbs.cntl_reg , *cci_data->fbs.status_reg , *cci_data->fbs.status_irq_reg, *cci_data->fbs.conf_ul_reg1 , *cci_data->fbs.conf_ul_reg2 , *cci_data->fbs.conf_ul_reg3 , *cci_data->fbs.conf_ul_reg4 , *cci_data->fbs.conf_ul_reg5 , *cci_data->fbs.conf_dl_reg1 ); TRACE_EVENT_P9( "cci_trace_gea_param_2 %04X %04X %04X %04X %04X %04X %04X %04X %04X", *cci_data->fbs.conf_dl_reg2 , *cci_data->fbs.conf_dl_reg3 , *cci_data->fbs.conf_dl_reg4 , *cci_data->fbs.conf_dl_reg5 , *cci_data->fbs.fcs_ul_reg1 , *cci_data->fbs.fcs_ul_reg2 , *cci_data->fbs.fcs_dl_reg1 , *cci_data->fbs.fcs_dl_reg2 , *cci_data->fbs.switch_reg ); } #endif #endif #endif /* TI_PS_OP_CIPH_DRIVER */