FreeCalypso > hg > fc-magnetite
diff src/g23m-aci/uart/uart_dtxs.c @ 162:53929b40109c
src/g23m-aci: initial import from TCS3.2/LoCosto
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 11 Oct 2016 02:02:43 +0000 |
| parents | |
| children |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/g23m-aci/uart/uart_dtxs.c Tue Oct 11 02:02:43 2016 +0000 @@ -0,0 +1,1305 @@ +/* ++----------------------------------------------------------------------------- +| 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 UART and implements all +| functions to handles the incoming process internal signals as +| described in the SDL-documentation (DTX-statemachine) ++----------------------------------------------------------------------------- +*/ + +#ifndef UART_DTXS_C +#define UART_DTXS_C +#endif /* !UART_DTXS_C */ + +#define ENTITY_UART + +/*==== INCLUDES =============================================================*/ + +#ifdef _SIMULATION_ +#include <stdio.h> +#endif +#ifdef WIN32 +#include "nucleus.h" +#endif /* WIN32 */ +#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" +#include "gsm.h" /* to get a lot of macros */ +#include "cnf_uart.h" /* to get cnf-definitions */ +#include "mon_uart.h" /* to get mon-definitions */ +#include "prim.h" /* to get the definitions of used SAP and directions */ +#include "dti.h" /* to get dti lib */ +#include "pei.h" /* to get PEI interface */ +#ifdef FF_MULTI_PORT +#include "gsi.h" /* to get definitions of serial driver */ +#else /* FF_MULTI_PORT */ +#ifdef _TARGET_ +#include "uart/serialswitch.h" +#include "uart/traceswitch.h" +#else /* _TARGET_ */ +#include "serial_dat.h" /* to get definitions of serial driver */ +#endif /* _TARGET_ */ +#endif /* FF_MULTI_PORT */ +#include "uart.h" /* to get the global entity definitions */ + +#include "uart_dtxf.h" /* to get DTX function definitions */ +#include "uart_dtxp.h" /* to get DTX primitive definitions */ +#include "uart_kers.h" /* to get KER signal definitions */ +#include "uart_rts.h" /* to get RT signal definitions */ +#ifdef FF_MULTI_PORT +#include "uart_prxs.h" /* to get signal definitions for service TX */ +#else /* FF_MULTI_PORT */ +#include "uart_rxs.h" /* to get TX signal definitions */ +#endif /* FF_MULTI_PORT */ +#include <string.h> /* JK, delete warnings: to get memmove, memcpy */ + +/*==== CONST ================================================================*/ + +/*==== LOCAL VARS ===========================================================*/ + +/*==== PRIVATE FUNCTIONS ====================================================*/ + +/*==== PUBLIC FUNCTIONS =====================================================*/ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_ready_mode_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_READY_MODE_REQ +| +| Parameters : dlc_instance - dlc instance wich belongs to this DTX instance +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_ready_mode_req (UBYTE dlc_instance) +{ + TRACE_ISIG( "sig_ker_dtx_ready_mode_req" ); + + uart_data->dtx->dlc_instance = dlc_instance; + + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_DEAD: + SET_STATE( UART_SERVICE_DTX, DTX_NOT_READY ); + + /* + * reset line states + */ + uart_data->dtx->st_flow = DTI_FLOW_ON; + uart_data->dtx->st_line_sa = DTI_SA_ON; + uart_data->dtx->st_line_sb = DTI_SB_ON; + uart_data->dtx->st_break_len = DTI_BREAK_OFF; + uart_data->dtx->detect_escape = TRUE; + + uart_data->dtx->data_flow = UART_FLOW_ENABLED; + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + /* + * reset escape sequence detection + */ + dtx_set_esd_state( UART_ESD_NULL ); + uart_data->dtx->detect_escape = TRUE; + if(vsi_t_time (VSI_CALLER &(uart_data->dtx->esd_guard_time)) + NEQ VSI_OK) + { + TRACE_ERROR_P1("VSI entity: Can't restart timer, uart_dtxs.c(%d)", + __LINE__); + } + uart_data->dtx->esd_pos = 0; + /* + * start reception + */ + dtx_allocate_resources(); + sig_dtx_rx_ready_to_receive_req( uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size ); + } + break; + + case DTX_READY: + case DTX_NOT_READY: + break; + + default: + TRACE_ERROR( "SIG_KER_DTX_READY_MODE_REQ unexpected" ); + break; + } +} /* sig_ker_dtx_ready_mode_req() */ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_dead_mode_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_DEAD_MODE_REQ +| +| Parameters : none +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_dead_mode_req () +{ + TRACE_ISIG( "sig_ker_dtx_dead_mode_req" ); + + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_READY: + case DTX_NOT_READY: + SET_STATE( UART_SERVICE_DTX, DTX_DEAD ); + /* + * reset hComm_DTX_UPLINK and size_multiplier + */ + uart_data->dtx->dti_dtx_state = DTI_CLOSED; + uart_data->dtx->size_multiplier = 3; + + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + /* + * free recources and stop receiving + */ + sig_dtx_rx_not_ready_to_receive_req(uart_data->dtx->dlc_instance); + dtx_free_resources(); + } + else + uart_data->dtx->receiving_state = UART_DTX_INVALID; + break; + + case DTX_DEAD: + break; + + default: + TRACE_ERROR( "SIG_KER_DTX_DEAD_MODE_REQ unexpected" ); + break; + } +} /* sig_ker_dtx_dead_mode_req() */ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_rx_dtx_receiving_ind ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_RX_DTX_RECEIVING_IND +| +| Parameters : none +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_rx_dtx_receiving_ind () +{ + TRACE_ISIG( "sig_rx_dtx_receiving_ind" ); + + uart_data->dtx->receiving_state = UART_DTX_RECEIVING; + + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_READY: + case DTX_NOT_READY: + break; + + default: + TRACE_ERROR( "SIG_RX_DTX_RECEIVING_IND unexpected" ); + break; + } +} /* sig_ker_dtx_receiving_ind() */ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_rx_dtx_data_received_ind ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_RX_DTX_DATA_RECEIVED_IND +| +| Parameters : none +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_rx_dtx_data_received_ind (T_desc2* received_data, + USHORT write_pos) +{ + T_DATA_FLOW_STATE old_data_flow; + T_desc2* temp_desc; + USHORT esd_pos; + T_TIME cur_time; + + TRACE_ISIG( "sig_rx_dtx_data_received_ind" ); + +#ifdef UART_RANGE_CHECK + if(received_data EQ NULL) + { + TRACE_EVENT("ERROR: received_data is NULL"); + } + else if((*((ULONG*)((UBYTE*)received_data - 8))) NEQ 0) + { + TRACE_EVENT_P1("ERROR: received_data=%08x is not allocated", + received_data); + } + if(uart_data->dtx->to_send_data NEQ received_data) + { + TRACE_EVENT_P2("ERROR: to_send_data=%08x NEQ received_data=%08x", + uart_data->dtx->to_send_data, + received_data); + } + if(uart_data->dtx->to_send_data->len > uart_data->dtx->cur_desc_size) + { + TRACE_EVENT_P2("ERROR: to_send_data->len=%d > cur_desc_size=%d", + uart_data->dtx->to_send_data->len, + uart_data->dtx->cur_desc_size); + } + if(write_pos > uart_data->dtx->cur_desc_size) + { + TRACE_EVENT_P2("ERROR: write_pos=%d > cur_desc_size=%d", + write_pos, + uart_data->dtx->cur_desc_size); + } + if(uart_data->dtx->to_send_data->len > write_pos) + { + TRACE_EVENT_P2("ERROR: to_send_data->len=%d > write_pos=%d", + uart_data->dtx->to_send_data->len, + write_pos); + } + if(uart_data->dtx->esd_pos > write_pos) + { + TRACE_EVENT_P2("ERROR: esd_pos=%d > write_pos=%d", + uart_data->dtx->esd_pos, + write_pos); + } + switch(dtx_get_esd_state()) + { + case UART_ESD_DETECTED: + if(uart_data->dtx->esd_pos < 3) + { + TRACE_EVENT_P1("ERROR: esd_pos=%d < 3 in UART_ESD_DETECTED state", + uart_data->dtx->esd_pos); + } + break; + case UART_ESD_CHAR_1: + if(uart_data->dtx->esd_pos < 1) + { + TRACE_EVENT_P1("ERROR: esd_pos=%d < 1 in UART_ESD_CHAR_1 state", + uart_data->dtx->esd_pos); + } + break; + case UART_ESD_CHAR_2: + if(uart_data->dtx->esd_pos < 2) + { + TRACE_EVENT_P1("ERROR: esd_pos=%d < 2 in UART_ESD_CHAR_2 state", + uart_data->dtx->esd_pos); + } + break; + case UART_ESD_CHAR_3: + if(uart_data->dtx->esd_pos < 3) + { + TRACE_EVENT_P1("ERROR: esd_pos=%d < 3 in UART_ESD_CHAR_3 state", + uart_data->dtx->esd_pos); + } + break; + } +#endif /* UART_RANGE_CHECK */ + + /* + * store new write position, + * current data_flow state and + * current data descriptor + */ + uart_data->dtx->write_pos = write_pos; + old_data_flow = uart_data->dtx->data_flow; + temp_desc = received_data; + + /* + * Introduce local variable here in order to prevent + * the target compiler from doing wrong calculations ... + */ + esd_pos = uart_data->dtx->esd_pos; + + /* + * escape sequence detection + */ + if(uart_data->dtx->receiving_state EQ UART_DTX_RECEIVING && + uart_data->dtx->detect_escape EQ TRUE) + { + if (vsi_t_time (VSI_CALLER &cur_time) EQ VSI_OK) + { + switch(dtx_get_esd_state()) + { + case UART_ESD_DETECTED: + /* + * remove escape characters because escape sequence was detected + */ + if(uart_data->dtx->write_pos > esd_pos) + { + memmove(&temp_desc->buffer[esd_pos - 3], + &temp_desc->buffer[esd_pos], + uart_data->dtx->write_pos - esd_pos); + } + uart_data->dtx->write_pos-= 3; + esd_pos -= 3; + uart_data->dtx->esd_pos = esd_pos; + dtx_set_esd_state( UART_ESD_NULL ); + /* fall through */ + case UART_ESD_NULL: +#ifdef _SIMULATION_ + TRACE_EVENT_P2("uart_data->act_gp: %d, silence: %d", + uart_data->act_gp, + (cur_time - uart_data->dtx->esd_guard_time)); +#endif /* _SIMULATION_ */ + if(esd_pos >= temp_desc->len) + break; + + if(((cur_time - + uart_data->dtx->esd_guard_time) < uart_data->act_gp) || + (temp_desc-> + buffer[esd_pos] NEQ uart_data->act_ec)) + { + /* + * set new reference time and + * update esd_pos + */ + esd_pos = temp_desc->len; + uart_data->dtx->esd_pos = esd_pos; + uart_data->dtx->esd_guard_time = cur_time; + break; + } + /* + * first guard period complete and + * first escape character detected + */ +#ifdef _SIMULATION_ + TRACE_EVENT("+ + + first guard period complete + + +"); +#endif /* _SIMULATION_ */ + dtx_set_esd_state( UART_ESD_CHAR_1 ); + esd_pos++; + uart_data->dtx->esd_pos = esd_pos; + uart_data->dtx->esd_guard_time = cur_time; + sig_dtx_rt_start_tesd_req (uart_data->act_gp); + /* fall trough */ + case UART_ESD_CHAR_1: + if(esd_pos >= temp_desc->len) + { + /* + * hide 1 character + */ + temp_desc->len = esd_pos - 1; + temp_desc->size = temp_desc->len; + break; + } + + if(temp_desc-> + buffer[esd_pos] NEQ uart_data->act_ec) + { + /* + * second character is not an escape character + */ + dtx_set_esd_state( UART_ESD_NULL ); + esd_pos = temp_desc->len; + uart_data->dtx->esd_pos = esd_pos; + uart_data->dtx->esd_guard_time = cur_time; + break; + } + /* + * second escape character received + */ + dtx_set_esd_state( UART_ESD_CHAR_2 ); + esd_pos++; + uart_data->dtx->esd_pos = esd_pos; + /* fall trough */ + case UART_ESD_CHAR_2: + if(esd_pos >= temp_desc->len) + { + /* + * hide 2 characters + */ + temp_desc->len = esd_pos - 2; + temp_desc->size = temp_desc->len; + break; + } + /* + * set new reference time + */ + uart_data->dtx->esd_guard_time = cur_time; + + if(temp_desc-> + buffer[esd_pos] NEQ uart_data->act_ec) + { + /* + * third character is not an escape character + */ + dtx_set_esd_state( UART_ESD_NULL ); + esd_pos = temp_desc->len; + uart_data->dtx->esd_pos = esd_pos; + break; + } + /* + * third escape character received + */ + dtx_set_esd_state( UART_ESD_CHAR_3 ); + esd_pos++; + uart_data->dtx->esd_pos = esd_pos; + sig_dtx_rt_start_tesd_req (uart_data->act_gp); + /* fall trough */ + case UART_ESD_CHAR_3: + if(esd_pos >= temp_desc->len) + { + /* + * hide 3 characters + */ + temp_desc->len = esd_pos - 3; + temp_desc->size = temp_desc->len; + break; + } + /* + * fourth character received + */ + dtx_set_esd_state( UART_ESD_NULL ); + esd_pos = temp_desc->len; + uart_data->dtx->esd_pos = esd_pos; + uart_data->dtx->esd_guard_time = cur_time; + break; + + default: + TRACE_ERROR("wrong esd state"); + break; + } + } + else + { + TRACE_ERROR_P1("VSI entity: Can't restart timer, uart_dtxs.c(%d)", + __LINE__); + } + } + + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_DEAD: + dtx_free_resources(); + uart_data->dtx->receiving_state = UART_DTX_NOT_RECEIVING; + break; + + case DTX_READY: + /* + * enable data flow if necessary + */ + if(old_data_flow NEQ UART_FLOW_ENABLED) + { + uart_data->dtx->data_flow = UART_FLOW_ENABLED; + sig_dtx_ker_enable_ind(uart_data->dtx->dlc_instance); + } + + if(uart_data->dtx->receiving_state EQ UART_DTX_RECEIVING) + { + /* + * if data to send available or + * line states changed + */ + if((temp_desc->len) || + (uart_data->dtx->lines_changed)) + { + PALLOC_DESC2 (dti_data_ind, DTI2_DATA_IND); + SET_STATE( UART_SERVICE_DTX, DTX_NOT_READY ); + + if(temp_desc->len) + { + /* + * mark entity descriptor as invalid, since data will be forwarded + */ + uart_data->dtx->to_send_data = NULL; + + dti_data_ind->desc_list2.first = (ULONG)temp_desc; + dti_data_ind->desc_list2.list_len = temp_desc->len; + + /* + * calculate new size multiplier according to fillrate of buffer + */ + dtx_calculate_size_multiplier (temp_desc, old_data_flow); + /* + * allocate a new descriptor with size according to new size_multiplier + */ + dtx_allocate_resources(); + /* + * Check for data which has not yet been validated, i.e. because + * the frame containing the data has not yet been received completely. + * In this case, the not yet validated data is copied to the newly + * allocated descriptor. + */ + if(uart_data->dtx->write_pos > temp_desc->len) + { + memcpy(uart_data->dtx->to_send_data->buffer, + &temp_desc->buffer[temp_desc->len], + uart_data->dtx->write_pos - temp_desc->len); + uart_data->dtx->write_pos-= temp_desc->len; + } + esd_pos-= temp_desc->len; + uart_data->dtx->esd_pos = esd_pos; + } + else + { + /* + * just line states has been changed + */ + dti_data_ind->desc_list2.first = (ULONG)NULL; + dti_data_ind->desc_list2.list_len = 0; + } + + /* + * set line states and + * mark line states as unchanged; + */ + dti_data_ind->parameters.st_lines.st_flow = uart_data->dtx->st_flow; + dti_data_ind->parameters.st_lines.st_line_sa = uart_data->dtx->st_line_sa; + dti_data_ind->parameters.st_lines.st_line_sb = uart_data->dtx->st_line_sb; + dti_data_ind->parameters.st_lines.st_break_len = uart_data->dtx->st_break_len; + + uart_data->dtx->lines_changed = FALSE; + uart_data->dtx->st_break_len = DTI_BREAK_OFF; + + dti_send_data( + uart_hDTI, + uart_data->device, + UART_DTI_UP_INTERFACE, + uart_data->dtx->dlc_instance, + dti_data_ind + ); + } + } + else + { + /* + * invalid data + * free recources and allocate a new descriptor because + * size_multiplier may have changed + */ + dtx_free_resources(); + dtx_allocate_resources(); + /* + * reset escape sequence detection + */ + dtx_set_esd_state( UART_ESD_NULL ); + if(vsi_t_time (VSI_CALLER &(uart_data->dtx->esd_guard_time)) NEQ VSI_OK) + { + TRACE_ERROR_P1("VSI entity: Can't restart timer, uart_dtxs.c(%d)", + __LINE__); + } + + esd_pos = 0; + uart_data->dtx->esd_pos = esd_pos; + } + + /* + * signal availability to receive to RX service + */ + uart_data->dtx->receiving_state = UART_DTX_NOT_RECEIVING; + sig_dtx_rx_ready_to_receive_req( uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size ); + break; + + case DTX_NOT_READY: + if(uart_data->dtx->receiving_state EQ UART_DTX_RECEIVING) + { + uart_data->dtx->receiving_state = UART_DTX_NOT_RECEIVING; + if((old_data_flow NEQ UART_FLOW_DISABLED) && + ((uart_data->dtx->cur_desc_size - temp_desc->len) < + ((USHORT)uart_data->n1 << 1))) + { + /* + * the service DTX is receiving but there is not enough space left + * therefore it is necessary to disable the data flow + */ + uart_data->dtx->data_flow = UART_FLOW_DISABLED; + sig_dtx_ker_disable_ind(uart_data->dtx->dlc_instance); + } + if((uart_data->dtx->cur_desc_size - + esd_pos) >= uart_data->n1) + { + /* + * there is still enough space left to continue reception + */ + sig_dtx_rx_ready_to_receive_req(uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size); + } + } + else + { + /* + * invalid data + * free recources and allocate a new descriptor + * because size_multiplier may have changed + */ + dtx_free_resources(); + dtx_allocate_resources(); + /* + * reset escape sequence detection + */ + dtx_set_esd_state( UART_ESD_NULL ); + if(vsi_t_time (VSI_CALLER &(uart_data->dtx->esd_guard_time)) NEQ VSI_OK) + { + TRACE_ERROR_P1("VSI entity: Can't restart timer, uart_dtxs.c(%d)", + __LINE__); + } + + esd_pos = 0; + uart_data->dtx->esd_pos = esd_pos; + /* + * enable flow control if necessary + */ + if(old_data_flow NEQ UART_FLOW_ENABLED) + { + uart_data->dtx->data_flow = UART_FLOW_ENABLED; + sig_dtx_ker_enable_ind(uart_data->dtx->dlc_instance); + } + /* + * signal availability to receive to RX service + */ + uart_data->dtx->receiving_state = UART_DTX_NOT_RECEIVING; + sig_dtx_rx_ready_to_receive_req( uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size ); + } + break; + + default: + TRACE_ERROR( "SIG_RX_DTX_DATA_RECEIVED_IND unexpected" ); + break; + + } +} /* sig_rx_dtx_data_received_ind() */ + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_line_states_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_LINE_STATES_REQ +| which indicates that one or more line status signals have +| changed +| +| Parameters : st_flow - flow control state (X bit) +| st_line_sa - line state SA +| st_line_sa - line state SB +| st_break_len - break length +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_line_states_req(UBYTE st_flow, + UBYTE st_line_sa, + UBYTE st_line_sb, + UBYTE st_break_len) +{ + TRACE_ISIG( "sig_ker_dtx_line_states_req" ); + + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_READY: + if((st_flow NEQ uart_data->dtx->st_flow) || + (st_line_sa NEQ uart_data->dtx->st_line_sa) || + (st_line_sb NEQ uart_data->dtx->st_line_sb) || + (st_break_len NEQ uart_data->dtx->st_break_len)) + { + /* + * send line states to DTI peer + */ + PALLOC_DESC2 (dti_data_ind, DTI2_DATA_IND); + SET_STATE( UART_SERVICE_DTX, DTX_NOT_READY ); + + /* + * store new line states + */ + uart_data->dtx->st_flow = st_flow; + uart_data->dtx->st_line_sa = st_line_sa; + uart_data->dtx->st_line_sb = st_line_sb; + uart_data->dtx->st_break_len = st_break_len; + + /* + * just line states has been changed + */ + dti_data_ind->desc_list2.first = (ULONG)NULL; + dti_data_ind->desc_list2.list_len = 0; + /* + * set line states and + * mark line states as unchanged; + */ + dti_data_ind->parameters.st_lines.st_flow = uart_data->dtx->st_flow; + dti_data_ind->parameters.st_lines.st_line_sa = uart_data->dtx->st_line_sa; + dti_data_ind->parameters.st_lines.st_line_sb = uart_data->dtx->st_line_sb; + dti_data_ind->parameters.st_lines.st_line_sb = uart_data->dtx->st_line_sb; + dti_data_ind->parameters.st_lines.st_break_len = uart_data->dtx->st_break_len; + + uart_data->dtx->lines_changed = FALSE; + uart_data->dtx->st_break_len = DTI_BREAK_OFF; + + dti_send_data( + uart_hDTI, + uart_data->device, + UART_DTI_UP_INTERFACE, + uart_data->dtx->dlc_instance, + dti_data_ind + ); + } + break; + + case DTX_NOT_READY: + if((st_flow NEQ uart_data->dtx->st_flow) || + (st_line_sa NEQ uart_data->dtx->st_line_sa) || + (st_line_sb NEQ uart_data->dtx->st_line_sb) || + (st_break_len NEQ uart_data->dtx->st_break_len)) + { + /* + * If previously break detected keep information in + * uart_data->dtx->st_break_len + */ + if(uart_data->dtx->st_break_len EQ DTI_BREAK_OFF) + uart_data->dtx->st_break_len = st_break_len; + /* + * store new line states + */ + uart_data->dtx->st_flow = st_flow; + uart_data->dtx->st_line_sa = st_line_sa; + uart_data->dtx->st_line_sb = st_line_sb; + /* + * mark line states as changed + */ + uart_data->dtx->lines_changed = TRUE; + } + break; + + default: + TRACE_ERROR( "SIG_KER_DTX_LINE_STATES_REQ unexpected" ); + break; + } +} /* sig_ker_dtx_line_states_req */ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_detect_escape_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_DETECT_ESCAPE_REQ +| which enables escape sequence detection +| +| Parameters : detect_escape - TRUE/FALSE +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_detect_escape_req (UBYTE detect_escape) +{ + TRACE_ISIG( "sig_ker_dtx_detect_req" ); + + uart_data->dtx->detect_escape = detect_escape; +} /* sig_ker_dtx_detect_req() */ + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_disconnected_mode_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_DISCONNECTED_MODE_REQ +| +| Parameters : none +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_disconnected_mode_req () +{ + TRACE_ISIG( "sig_ker_dtx_disconnected_mode_req" ); + + uart_data->dtx->dti_dtx_state = DTI_CLOSED; + + switch(GET_STATE( UART_SERVICE_DTX) ) + { + case DTX_READY: + SET_STATE( UART_SERVICE_DTX, DTX_NOT_READY ); + break; + case DTX_NOT_READY: + break; + default: + TRACE_ERROR( "SIG_KER_DTX_DISCONNECTED_MODE_REQ unexpected" ); + break; + } + +} /* sig_ker_dtx_disconnected_mode_req() */ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_set_dtilib_peer_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_SET_DTI_PEER_REQ +| which is used to inform the service DTX that from now on it +| needs to communicate with a (new) peer +| +| Parameters : - +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_set_dtilib_peer_req () + +{ + TRACE_ISIG( "sig_ker_dtx_set_dtilib_peer_req" ); + + /* + * set dtilib parameters + */ + uart_data->dtx->dti_dtx_state = DTI_IDLE; + + /* + * reset size_multiplier + */ + uart_data->dtx->size_multiplier = 3; + + /* + * switch to new DTX state depending on current state + */ + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_READY: + SET_STATE( UART_SERVICE_DTX, DTX_NOT_READY ); + /* fall through */ + case DTX_NOT_READY: + { + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + /* + * reset received data + */ + dtx_free_resources(); + dtx_allocate_resources(); + /* + * reset escape sequence detection + */ + dtx_set_esd_state( UART_ESD_NULL ); + if(vsi_t_time (VSI_CALLER &(uart_data->dtx->esd_guard_time)) NEQ VSI_OK) + { + TRACE_ERROR_P1("VSI entity: Can't restart timer, uart_dtxs.c(%d)", + __LINE__); + } + + uart_data->dtx->esd_pos = 0; + /* + * enable flow control if necessary + */ + if(uart_data->dtx->data_flow NEQ UART_FLOW_ENABLED) + { + uart_data->dtx->data_flow = UART_FLOW_ENABLED; + sig_dtx_ker_enable_ind(uart_data->dtx->dlc_instance); + } + /* + * signal availability to receive to RX service + */ + sig_dtx_rx_ready_to_receive_req( uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size ); + } + else + uart_data->dtx->receiving_state = UART_DTX_INVALID; + } + break; + + case DTX_DEAD: + break; + + default: + TRACE_ERROR( "SIG_KER_DTX_SET_DTI_PEER_REQ unexpected" ); + break; + } +} /* sig_ker_dtx_set_dtilib_peer_req() */ + + + +/* ++------------------------------------------------------------------------------ +| Function : sig_ker_dtx_timeout_tesd_req ++------------------------------------------------------------------------------ +| Description : Handles the internal signal SIG_KER_DTX_TIMEOUT_TESD_REQ +| which is used to inform the service DTX that the Escape +| Sequence Guard Period timer has expired. +| +| Parameters : none +| ++------------------------------------------------------------------------------ +*/ +GLOBAL void sig_ker_dtx_timeout_tesd_req() +{ + T_DATA_FLOW_STATE old_data_flow; + T_TIME cur_time; + T_TIME elapsed; + T_desc2* temp_desc; + + TRACE_ISIG( "sig_ker_dtx_timeout_tesd_req" ); + + switch( GET_STATE( UART_SERVICE_DTX ) ) + { + case DTX_READY: + if (vsi_t_time (VSI_CALLER &cur_time) EQ VSI_OK) + { + elapsed = cur_time - uart_data->dtx->esd_guard_time; + switch (dtx_get_esd_state()) + { + case UART_ESD_DETECTED: + case UART_ESD_NULL: + break; + + case UART_ESD_CHAR_1: + case UART_ESD_CHAR_2: + if(elapsed < uart_data->act_gp) + { + /* + * escape sequence guard period not complete: start timer + * with remaining time value + */ + sig_dtx_rt_start_tesd_req (uart_data->act_gp - elapsed); + } + else + { + /* + * Guard Period complete + * reset detection because detected characters do not belong to + * an escape sequence + */ + dtx_set_esd_state( UART_ESD_NULL ); + + /* + * if possible send the escape character + */ + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + /* + * Guard Period complete + * send one escape character to DTI peer and reset detection + */ + PALLOC_DESC2 (dti_data_ind, DTI2_DATA_IND); + SET_STATE( UART_SERVICE_DTX, DTX_NOT_READY ); + + /* + * enable data flow if necessary + */ + old_data_flow = uart_data->dtx->data_flow; + if(uart_data->dtx->data_flow NEQ UART_FLOW_ENABLED) + { + uart_data->dtx->data_flow = UART_FLOW_ENABLED; + sig_dtx_ker_enable_ind(uart_data->dtx->dlc_instance); + } + /* + * mark entity descriptor as invalid, since data will be + * forwarded + */ + temp_desc = uart_data->dtx->to_send_data; + uart_data->dtx->to_send_data = NULL; + + /* + * make escape character valid to send and insert values in + * primitive + */ + temp_desc->len = uart_data->dtx->esd_pos; + temp_desc->size = temp_desc->len; + + dti_data_ind->desc_list2.first = (ULONG)temp_desc; + dti_data_ind->desc_list2.list_len = temp_desc->len; + + /* + * calculate new size multiplier according to fillrate of buffer + */ + dtx_calculate_size_multiplier (temp_desc, old_data_flow); + /* + * allocate a new descriptor with size according to new size_multiplier + */ + dtx_allocate_resources(); + /* + * Check for data which has not yet been validated, i.e. because + * the frame containing the data has not yet been received completely. + * In this case, the not yet validated data is copied to the newly + * allocated descriptor. + */ + if(uart_data->dtx->write_pos > temp_desc->len) + { + memcpy(uart_data->dtx->to_send_data->buffer, + &temp_desc->buffer[temp_desc->len], + uart_data->dtx->write_pos - temp_desc->len); + uart_data->dtx->write_pos-= temp_desc->len; + } + uart_data->dtx->esd_pos = 0; + sig_dtx_rx_ready_to_receive_req(uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size); + + /* + * set line states + */ + dti_data_ind->parameters.st_lines.st_flow = uart_data->dtx->st_flow; + dti_data_ind->parameters.st_lines.st_line_sa = uart_data->dtx->st_line_sa; + dti_data_ind->parameters.st_lines.st_line_sb = uart_data->dtx->st_line_sb; + dti_data_ind->parameters.st_lines.st_break_len = uart_data->dtx->st_break_len; + + uart_data->dtx->lines_changed = FALSE; + uart_data->dtx->st_break_len = DTI_BREAK_OFF; + +#ifdef _SIMULATION_ + dti_data_ind->parameters.p_id = DTI_PID_UOS; +#endif /* _SIMULATION_ */ + dti_send_data( + uart_hDTI, + uart_data->device, + UART_DTI_UP_INTERFACE, + uart_data->dtx->dlc_instance, + dti_data_ind + ); + } + } + break; + + case UART_ESD_CHAR_3: + if(elapsed < uart_data->act_gp) + { + /* + * escape sequence guard period not complete: start timer + * with remaining time value + */ + sig_dtx_rt_start_tesd_req (uart_data->act_gp - elapsed); + } + else + { + /* + * Guard Period complete + * Escape Sequence detected + */ + /* + * remove escape characters from data stream + */ + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + if(uart_data->dtx->write_pos > 3) + { + memmove(uart_data->dtx->to_send_data->buffer, + &uart_data->dtx->to_send_data->buffer[3], + uart_data->dtx->write_pos - 3) + ; /*lint !e416 creation of out-of-bounds pointer */ + uart_data->dtx->write_pos-= 3; + } + else + uart_data->dtx->write_pos = 0; + uart_data->dtx->esd_pos = 0; + sig_dtx_rx_ready_to_receive_req(uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size); + /* + * Reset the state of the Escape Sequence Detection + */ + dtx_set_esd_state( UART_ESD_NULL ); + } + else + { + /* + * escape characters are not removeable + * so we will do this later + */ +#ifdef _SIMULATION_ + TRACE_EVENT("ESD: escape characters are not removeable"); +#endif /* _SIMULATION_ */ + dtx_set_esd_state( UART_ESD_DETECTED ); + } +#ifdef _SIMULATION_ + TRACE_EVENT_P3("+ + + dlc_instance: %d, silence %d \ + (from %d) Escape Sequence Detected + + + ", + uart_data->dtx->dlc_instance, + elapsed, + uart_data->dtx->esd_guard_time); +#endif /* _SIMULATION_ */ + + /* + * send detected escape sequence to MMI + */ + sig_dtx_ker_escape_detected_ind(uart_data->dtx->dlc_instance); + } + break; + + default: + { + TRACE_ERROR_P1("Error: wrong ESD state, uart_dtxs.c(%d)", __LINE__); + } + break; + } + } + else + { + TRACE_ERROR_P1("VSI entity: Cannot restart timer, uart_dtxs.c(%d)", + __LINE__); + } + break; + + case DTX_NOT_READY: + if (vsi_t_time (VSI_CALLER &cur_time) EQ VSI_OK) + { + elapsed = cur_time - uart_data->dtx->esd_guard_time; + switch (dtx_get_esd_state()) + { + case UART_ESD_DETECTED: + case UART_ESD_NULL: + break; + + case UART_ESD_CHAR_1: + case UART_ESD_CHAR_2: + if(elapsed < uart_data->act_gp) + { + /* + * escape sequence guard period not complete: start timer + * with remaining time value + */ + sig_dtx_rt_start_tesd_req (uart_data->act_gp - elapsed); + } + else + { + /* + * Guard Period complete + * reset detection because detected characters do not belong to + * an escape sequence + */ + dtx_set_esd_state( UART_ESD_NULL ); + + /* + * if possible insert escape characters to usual data stream + */ + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + /* + * make escape character valid to send and insert values in + * primitive + */ + uart_data->dtx->to_send_data->len = uart_data->dtx->esd_pos; + uart_data->dtx->to_send_data->size = uart_data->dtx->esd_pos; + uart_data->dtx->to_send_data->offset = 0; + + if((uart_data->dtx->cur_desc_size - + uart_data->dtx->esd_pos) >= uart_data->n1) + { + /* + * there is still enough space left to continue reception + */ + sig_dtx_rx_ready_to_receive_req( + uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size); + } + + } + } + break; + + case UART_ESD_CHAR_3: + if(elapsed < uart_data->act_gp) + { + /* + * escape sequence guard period not complete: start timer + * with remaining time value + */ + sig_dtx_rt_start_tesd_req (uart_data->act_gp - elapsed); + } + else + { + /* + * Guard Period complete + * Escape Sequence detected + * store the occurence of the Escape Sequence + */ +#ifdef _SIMULATION_ + TRACE_EVENT_P3("+ + + dlc_instance: %d, silence %d \ + (from %d) Escape Sequence Detected + + + ", + uart_data->dtx->dlc_instance, + elapsed, + uart_data->dtx->esd_guard_time); +#endif /* _SIMULATION_ */ + /* + * remove escape characters from data stream + */ + if(uart_data->dtx->receiving_state EQ UART_DTX_NOT_RECEIVING) + { + if(uart_data->dtx->write_pos > uart_data->dtx->esd_pos) + { + memmove( + &uart_data->dtx->to_send_data->buffer[ + uart_data->dtx->esd_pos - 3], + &uart_data->dtx->to_send_data->buffer[ + uart_data->dtx->esd_pos], + uart_data->dtx->write_pos - uart_data->dtx->esd_pos); + } + uart_data->dtx->write_pos-= 3; + uart_data->dtx->esd_pos -= 3; + /* + * Reset the state of the Escape Sequence Detection + */ + dtx_set_esd_state( UART_ESD_NULL ); + + if((uart_data->dtx->cur_desc_size - + uart_data->dtx->esd_pos) >= uart_data->n1) + { + /* + * there is still enough space left to continue reception + */ + sig_dtx_rx_ready_to_receive_req( + uart_data->dtx->dlc_instance, + uart_data->dtx->to_send_data, + uart_data->dtx->write_pos, + uart_data->dtx->cur_desc_size); + } + } + else + { + /* + * escape characters are not removeable + * so we will do this later + */ +#ifdef _SIMULATION_ + TRACE_EVENT("ESD: escape characters are not removeable"); +#endif /* _SIMULATION_ */ + dtx_set_esd_state( UART_ESD_DETECTED ); + } + + /* + * send detected escape sequence to MMI + */ + sig_dtx_ker_escape_detected_ind(uart_data->dtx->dlc_instance); + } + break; + + default: + TRACE_ERROR("wrong esd state"); + break; + } + } + break; + + case DTX_DEAD: + break; + + default: + TRACE_ERROR( "SIG_KER_DTX_TIMEOUT_TESD_REQ unexpected" ); + break; + } +} /* sig_ker_dtx_timeout_tesd_req() */