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view src/g23m-aci/uart/uart_dtxf.c @ 625:916b27af1c6c
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author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 22 Dec 2019 23:24:44 +0000 |
parents | 53929b40109c |
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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 UART and implements all | procedures and functions as described in the | SDL-documentation (DTX-statemachine) +----------------------------------------------------------------------------- */ #ifndef UART_DTXF_C #define UART_DTXF_C #endif /* !UART_DTXF_C */ #define ENTITY_UART /*==== INCLUDES =============================================================*/ #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 */ /*==== CONST ================================================================*/ /* * names of escape sequence detection state machine */ #ifdef _SIMULATION_ char * uart_esd_state_names[] = { "UART_ESD_NULL", "UART_ESD_CHAR_1", "UART_ESD_CHAR_2", "UART_ESD_CHAR_3", "UART_ESD_DETECTED" }; #endif /* _SIMULATION_ */ /*==== LOCAL VARS ===========================================================*/ /*==== PRIVATE FUNCTIONS ====================================================*/ /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : dtx_get_esd_state +------------------------------------------------------------------------------ | Description : This function returns the current state of the Escape Sequence | Detection. | | Parameters : none | | Return : ESD State | +------------------------------------------------------------------------------ */ GLOBAL T_ESD_STATE dtx_get_esd_state() { TRACE_FUNCTION ("dtx_get_esd_state"); #ifdef _SIMULATION_ TRACE_EVENT_P1 ("esd_state is [%s]", uart_esd_state_names[uart_data->dtx->esd_state]); #endif /* _SIMULATION_ */ return uart_data->dtx->esd_state; } /* dtx_get_esd_state() */ /* +------------------------------------------------------------------------------ | Function : dtx_set_esd_state +------------------------------------------------------------------------------ | Description : This function sets the state of the Escape Sequence Detection. | | Parameters : new ESD State | | Return : none | +------------------------------------------------------------------------------ */ GLOBAL void dtx_set_esd_state( T_ESD_STATE new_esd_state ) { TRACE_FUNCTION ("dtx_set_esd_state"); #ifdef _SIMULATION_ if(uart_data->dtx->esd_state != new_esd_state) { TRACE_EVENT_P2 ("esd_state [%s] -> [%s]", uart_esd_state_names[uart_data->dtx->esd_state], uart_esd_state_names[new_esd_state]); uart_data->dtx->esd_state = new_esd_state; uart_data->dtx->esd_state_name = uart_esd_state_names[new_esd_state]; } else { TRACE_EVENT_P1 ("esd_state remains [%s]", uart_esd_state_names[uart_data->dtx->esd_state]); } #else /* _SIMULATION_ */ if(uart_data->dtx->esd_state != new_esd_state) uart_data->dtx->esd_state = new_esd_state; #endif /* _SIMULATION_ */ } /* dtx_set_esd_state() */ /* +------------------------------------------------------------------------------ | Function : dtx_init +------------------------------------------------------------------------------ | Description : The function dtx_init() initializes the service DTX | | Parameters : none | +------------------------------------------------------------------------------ */ GLOBAL void dtx_init () { USHORT i; TRACE_FUNCTION( "dtx_init" ); for( i = 0; i < UART_MAX_NUMBER_OF_CHANNELS; i++ ) { /* * select next instance of service DTX */ uart_data->dtx = &( uart_data->dtx_base[i] ); /* * initialize service specific variables */ uart_data->dtx->to_send_data = NULL; uart_data->dtx->cur_desc_size = 0; uart_data->dtx->write_pos = 0; uart_data->dtx->size_multiplier = 3; 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->lines_changed = FALSE; uart_data->dtx->receiving_state = UART_DTX_NOT_RECEIVING; uart_data->dtx->data_flow = UART_FLOW_DISABLED; dtx_set_esd_state( UART_ESD_NULL ); uart_data->dtx->esd_guard_time = 0; uart_data->dtx->esd_pos = 0; uart_data->dtx->dti_dtx_state = DTI_CLOSED; INIT_STATE( UART_SERVICE_DTX , DTX_DEAD ); } } /* dtx_init() */ /* +------------------------------------------------------------------------------ | Function : dtx_free_resources +------------------------------------------------------------------------------ | Description : The function dtx_free_resources() frees the currently allocated | resources of the service DTX. | | Parameters : none | +------------------------------------------------------------------------------ */ GLOBAL void dtx_free_resources () { TRACE_FUNCTION( "dtx_free_resources()" ); /* * free all resources */ if(uart_data->dtx->to_send_data) { MFREE_DESC2( uart_data->dtx->to_send_data ); uart_data->dtx->to_send_data = NULL; } uart_data->dtx->cur_desc_size = 0; uart_data->dtx->write_pos = 0; } /* dtx_free_resources() */ /* +------------------------------------------------------------------------------ | Function : dtx_exit +------------------------------------------------------------------------------ | Description : The function dtx_exit() frees the currently allocated | resources of the service DTX. | | Parameters : none | +------------------------------------------------------------------------------ */ GLOBAL void dtx_exit () { ULONG i; TRACE_FUNCTION( "dtx_exit()" ); /* * free all resources */ if(uart_data->dtx->to_send_data) { MFREE_DESC2( uart_data->dtx->to_send_data ); uart_data->dtx->to_send_data = NULL; } uart_data->dtx->cur_desc_size = 0; uart_data->dtx->write_pos = 0; if(uart_data->ker.tx_data_waiting) { MFREE_DESC2(uart_data->ker.tx_data_waiting); uart_data->ker.tx_data_waiting = NULL; } for(i = 0; i < UART_MAX_NUMBER_OF_CHANNELS; i++) { if(uart_data->dlc_table[i].transmit_data) { MFREE_DESC2(uart_data->dlc_table[i].transmit_data); uart_data->dlc_table[i].transmit_data = NULL; } if(uart_data->dlc_table[i].receive_data) { MFREE_DESC2(uart_data->dlc_table[i].receive_data); uart_data->dlc_table[i].receive_data = NULL; } } } /* dtx_exit() */ /* +------------------------------------------------------------------------------ | Function : dtx_allocate_resources +------------------------------------------------------------------------------ | Description : The function dtx_allocate_resources() allocates a new set of | resources for the service DTX. | | Parameters : none | +------------------------------------------------------------------------------ */ GLOBAL void dtx_allocate_resources () { TRACE_FUNCTION( "dtx_allocate_resources()" ); /* * allocate a new descriptor * with a size of: size_multiplier * N1 (frame size) */ uart_data->dtx->cur_desc_size = uart_data->n1 * uart_data->dtx->size_multiplier; MALLOC(uart_data->dtx->to_send_data, (USHORT)(sizeof(T_desc2) - 1 + uart_data->dtx->cur_desc_size)); uart_data->dtx->to_send_data->len = 0; uart_data->dtx->to_send_data->size = 0; uart_data->dtx->to_send_data->offset = 0; uart_data->dtx->to_send_data->next = (ULONG) NULL; uart_data->dtx->write_pos = 0; } /* dtx_allocate_resources() */ /* +------------------------------------------------------------------------------ | Function : dtx_calculate_size_multiplier +------------------------------------------------------------------------------ | Description : The function dtx_calculate_size_multiplier() calculates the new | size_multiplier value. | | Parameters : desc_to_send - data descriptor that should be sent | data_flow - state of data flow befor we want to sent | +------------------------------------------------------------------------------ */ GLOBAL void dtx_calculate_size_multiplier (T_desc2* desc_to_send, T_DATA_FLOW_STATE data_flow) { TRACE_FUNCTION( "dtx_calculate_size_multiplier()" ); /* * calculate new size multiplier according to fillrate of buffer */ if((uart_data->dtx->size_multiplier < UART_DTX_MAX_SIZE_MULTIPLIER ) && (data_flow EQ UART_FLOW_DISABLED)) { /* * buffer is rather full, so increase the multiplier */ #ifdef _SIMULATION_ TRACE_EVENT( " sig_rx_dtx_data_received_ind(): buffer size_multiplier increased " ); #endif /* _SIMULATION_ */ uart_data->dtx->size_multiplier++; } else if((uart_data->dtx->size_multiplier > 3) && (data_flow EQ UART_FLOW_ENABLED) && ((uart_data->dtx->cur_desc_size - desc_to_send->len) > ((USHORT)uart_data->n1 << 1))) { /* * buffer is rather empty, so decrease the multiplier */ #ifdef _SIMULATION_ TRACE_EVENT( " sig_rx_dtx_data_received_ind(): buffer size_multiplier decreased " ); #endif /* _SIMULATION_ */ uart_data->dtx->size_multiplier--; } } /* dtx_calculate_size_multiplier() */