FreeCalypso > hg > fc-tourmaline
view src/g23m-aci/uart/uart_pei.c @ 75:8697f358f505
backlight rework: Condat light driver accepts levels
The present change is another intermediate step on the path toward
new FreeCalypso backlight handling. At this intermediate step the
Condat light driver accepts 0-255 backlight levels driven by MFW,
and puts them out on PWL on Luna development boards. At the same
time on C139 it is now possible to turn on the display backlight
with or without the keypad bl - the lsb of the 0-255 backlight level
controls the keypad bl.
MFW presently drives only 0 and 255 backlight levels, thus there is
no visible behavioral change yet - but the plan for subsequent stages
of this backlight rework is to add a dimmed backlight state
(no keypad bl on C139) during active calls.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 24 Oct 2020 20:44:04 +0000 |
parents | fa8dc04885d8 |
children |
line wrap: on
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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 module implements the process body interface | for the entity Universal Asynchronous Receiver Transmitter(UART) | | Exported functions: | | pei_create - Create the Protocol Stack Entity | pei_init - Initialize Protocol Stack Entity | pei_primitive - Process Primitive | pei_timeout - Process Timeout | pei_exit - Close resources and terminate | pei_run - Process Primitive | pei_config - Dynamic Configuration | pei_monitor - Monitoring of physical Parameters +----------------------------------------------------------------------------- */ #define UART_PEI_C #define ENTITY_UART /*==== INCLUDES =============================================================*/ #ifdef _SIMULATION_ #include <stdio.h> #endif /* _SIMULATION_ */ #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 */ #ifdef DTILIB #ifdef _SIMULATION_ /* #define UART_DTI_CONFIG -- presently not needed -- */ #include "tok.h" /* string management for pei_config() */ #endif /* _SIMULATION_ */ #include "dti.h" /* to get dti lib */ #endif /* DTILIB */ #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_kerf.h" /* to get ker functions */ #include "uart_kerp.h" /* to get ker primitives */ #include "uart_kers.h" /* to get ker signals */ #ifndef FF_MULTI_PORT #include "uart_rxf.h" /* to get rx functions */ #include "uart_rxp.h" /* to get rx primitives */ #include "uart_rxs.h" /* to get rx signals */ #include "uart_txf.h" /* to get tx functions */ #include "uart_txp.h" /* to get tx primitives */ #include "uart_txs.h" /* to get tx signals */ #else #include "uart_prxf.h" /* to get rx functions */ #include "uart_prxp.h" /* to get rx primitives */ #include "uart_prxs.h" /* to get rx signals */ #include "uart_ptxf.h" /* to get tx functions */ #include "uart_ptxp.h" /* to get tx primitives */ #include "uart_ptxs.h" /* to get tx signals */ #endif /* FF_MULTI_PORT */ #include "uart_drxf.h" /* to get drx functions */ #include "uart_drxp.h" /* to get drx primitives */ #include "uart_drxs.h" /* to get drx signals */ #include "uart_dtxf.h" /* to get dtx functions */ #include "uart_dtxp.h" /* to get dtx primitives */ #include "uart_dtxs.h" /* to get dtx signals */ #include "uart_rtf.h" /* to get dtx functions */ #include "uart_rtp.h" /* to get dtx primitives */ #include "uart_rts.h" /* to get dtx signals */ /*==== DEFINITIONS ==========================================================*/ /* * Prototypes for DTILIB wrap functions */ LOCAL void pei_dti_dti_connect_req (T_DTI2_CONNECT_REQ* dti_connect_req); LOCAL void pei_dti_dti_connect_res (T_DTI2_CONNECT_RES* dti_connect_res); LOCAL void pei_dti_dti_disconnect_req (T_DTI2_DISCONNECT_REQ* dti_disconnect_req); LOCAL void pei_dti_dti_getdata_req (T_DTI2_GETDATA_REQ* dti_getdata_req); LOCAL void pei_dti_dti_data_req (T_DTI2_DATA_REQ* dti_data_req); LOCAL void pei_dti_dti_connect_ind (T_DTI2_CONNECT_IND* dti_connect_ind); LOCAL void pei_dti_dti_connect_cnf (T_DTI2_CONNECT_CNF* dti_connect_cnf); LOCAL void pei_dti_dti_disconnect_ind (T_DTI2_DISCONNECT_IND* dti_disconnect_ind); LOCAL void pei_sig_callback(U8 instance, U8 interfac, U8 channel, U8 reason, T_DTI2_DATA_IND *dti_data2_ind); #ifdef _SIMULATION_ LOCAL void pei_dti_dti_data_test_req (T_DTI2_DATA_TEST_REQ* dti_data_test_req); LOCAL void pei_dti_dti_ready_ind (T_DTI2_READY_IND* dti_ready_ind); LOCAL void pei_dti_dti_data_ind (T_DTI2_DATA_IND* dti_data_ind); #endif /* _SIMULATION_ */ /*==== TYPES ================================================================*/ /* * global table which maps a timer index to an UART instancen and timer number */ typedef struct /* T_UART_TIMER_TABLE */ { T_UART_DATA* uart_data; /* pointer to UART data of the instance */ UBYTE timer_number; /* number of timer within the instance */ } T_UART_TIMER_TABLE; /*==== GLOBAL VARS ==========================================================*/ /* * global table which maps a timer index to an UART instancen and timer number */ T_UART_TIMER_TABLE uart_timer_table[ UART_TIMER_MAX ]; #ifdef DTILIB DTI_HANDLE uart_hDTI = D_NO_DATA_BASE; #endif /* DTILIB */ #ifdef UART_DTI_CONFIG ULONG drv_link_id = -1; #endif /* UART_DTI_CONFIG */ /*==== LOCAL VARS ===========================================================*/ static BOOL first_access = TRUE; static T_MONITOR uart_mon; /* * Jumptables to primitive handler functions. One table per SAP. * * Use MAK_FUNC_0 for primitives which contains no SDU. * Use MAK_FUNC_S for primitives which contains a SDU. */ /* * Function is needed for developing. This declaration can be removed * as soon as this function is no more called (i.e. all primitives are * handled). */ LOCAL void primitive_not_supported (void *data); /*qqq hier reinkommende, mit SAP vergleichen, S: mit sdu*/ static const T_FUNC uart_table[] = { MAK_FUNC_0(ker_uart_parameters_req, UART_PARAMETERS_REQ), /* 0x7400 */ MAK_FUNC_0(ker_uart_dti_req, UART_DTI_REQ), /* 0x7401 */ MAK_FUNC_0(ker_uart_disable_req, UART_DISABLE_REQ), /* 0x7402 */ MAK_FUNC_0(ker_uart_ring_req, UART_RING_REQ), /* 0x7403 */ MAK_FUNC_0(ker_uart_dcd_req, UART_DCD_REQ), /* 0x7404 */ MAK_FUNC_0(ker_uart_escape_req, UART_ESCAPE_REQ), /* 0x7405 */ MAK_FUNC_0(ker_uart_mux_start_req, UART_MUX_START_REQ), /* 0x7406 */ MAK_FUNC_0(ker_uart_mux_dlc_establish_res, UART_MUX_DLC_ESTABLISH_RES), /* 0x7408 */ MAK_FUNC_0(ker_uart_mux_dlc_release_req,UART_MUX_DLC_RELEASE_REQ),/* 0x7409 */ MAK_FUNC_0(ker_uart_mux_sleep_req, UART_MUX_SLEEP_REQ), /* 0x740a */ MAK_FUNC_0(ker_uart_mux_wakeup_req, UART_MUX_WAKEUP_REQ), /* 0x740b */ MAK_FUNC_0(ker_uart_mux_close_req, UART_MUX_CLOSE_REQ), /* 0x740c */ /* UART_DRIVER_SENT_IND 0x740d UART_DRIVER_RECEIVED_IND 0x740e UART_DRIVER_FLUSHED_IND 0x740f */ }; /* * Jumptable for the DTI service access point for uplink data transmission. * Contains the processing-function addresses and opcodes of * request and response primitives. Use of DTILIB can be selected. * */ static const T_FUNC dti_dti_ul_table[] = { MAK_FUNC_0( pei_dti_dti_connect_req , DTI2_CONNECT_REQ ), MAK_FUNC_0( pei_dti_dti_connect_res , DTI2_CONNECT_RES ), MAK_FUNC_0( pei_dti_dti_disconnect_req, DTI2_DISCONNECT_REQ), MAK_FUNC_0( pei_dti_dti_getdata_req , DTI2_GETDATA_REQ ), MAK_FUNC_0( pei_dti_dti_data_req , DTI2_DATA_REQ ), #if defined (_SIMULATION_) MAK_FUNC_S( pei_dti_dti_data_test_req , DTI2_DATA_TEST_REQ ) #else /* _SIMULATION_ */ MAK_FUNC_S( primitive_not_supported , DTI2_DATA_TEST_REQ ) #endif /* _SIMULATION_ */ }; #if defined (DTILIB) && defined (_SIMULATION_) static const T_FUNC dti_dti_dl_table[] = { MAK_FUNC_0( pei_dti_dti_connect_ind , DTI2_CONNECT_IND ), MAK_FUNC_0( pei_dti_dti_connect_cnf , DTI2_CONNECT_CNF ), MAK_FUNC_0( pei_dti_dti_disconnect_ind , DTI2_DISCONNECT_IND), MAK_FUNC_0( tx_dti_ready_ind , DTI2_READY_IND ), MAK_FUNC_0( primitive_not_supported , DTI2_DATA_IND ), MAK_FUNC_S( rx_dti_data_test_ind , DTI2_DATA_TEST_IND ), MAK_FUNC_0( pei_dti_dti_ready_ind , DTI2_READY_IND ), MAK_FUNC_0( pei_dti_dti_data_ind , DTI2_DATA_IND ), MAK_FUNC_S( primitive_not_supported , DTI2_DATA_TEST_IND ) }; #endif /*defined (DTILIB) && defined (_SIMULATION_)*/ /*==== DIAGNOSTICS ==========================================================*/ #ifdef _DEBUG #endif /* _DEBUG */ /*==== END DIAGNOSTICS ======================================================*/ /*==== PRIVATE FUNCTIONS ====================================================*/ /* +------------------------------------------------------------------------------ | Function : primitive_not_supported +------------------------------------------------------------------------------ | Description : This function handles unsupported primitives. | | Parameters : - | | Return : - | +------------------------------------------------------------------------------ */ LOCAL void primitive_not_supported (void *data) { TRACE_FUNCTION ("primitive_not_supported"); PFREE (data); } /*==== PUBLIC FUNCTIONS =====================================================*/ /* qqq hier malen +------------------------------------------------------------------------------ | Function : pei_primitive +------------------------------------------------------------------------------ | Description : This function is called by the frame when a primitive | is received and needs to be processed. | | | | | ACI DTI UPLINK | | | | +--------v--------v--------+ | | | | | UART | | | | | +--------------------------+ | | | Parameters : prim - Pointer to the received primitive | | Return : PEI_OK - function succeeded | PEI_ERROR - function failed | +------------------------------------------------------------------------------ */ /*qqq hier kucken*/ LOCAL SHORT pei_primitive (void * primptr) { TRACE_FUNCTION ("pei_primitive"); if (primptr NEQ NULL) { T_PRIM* prim = (T_PRIM*)primptr; USHORT opc = (USHORT)prim->custom.opc; USHORT n; const T_FUNC *table; /* * This must be called for Partition Pool supervision. Will be replaced * by another macro some time. */ VSI_PPM_REC (&prim->custom, __FILE__, __LINE__); PTRACE_IN (opc); switch (opc & OPC_MASK) { case UART_DL: table = uart_table; n = TAB_SIZE (uart_table); break; case DTI2_UL: #ifdef DTILIB table = dti_dti_ul_table; n = TAB_SIZE (dti_dti_ul_table); #ifdef DTI2 /* * to be able to distinguish DTI1/DTI2 opcodes, * the ones for DTI2 start at 0x50 */ opc -= 0x50; #endif /* DTI2*/ #else /* DTILIB */ table = dti_ul_table; n = TAB_SIZE (dti_ul_table); #endif /* DTILIB */ break; #ifdef _SIMULATION_ case DTI2_DL: #ifdef DTILIB table = dti_dti_dl_table; n = TAB_SIZE (dti_dti_dl_table); #ifdef DTI2 /* * to be able to distinguish DTI1/DTI2 opcodes, * the ones for DTI2 start at 0x50 */ opc -= 0x50; #endif /* DTI2*/ #else /* DTILIB */ table = dti_dl_table; n = TAB_SIZE (dti_dl_table); #endif /* DTILIB */ break; #endif /* _SIMULATION_ */ default: table = NULL; n = 0; break; } if (table != NULL) { if ((opc & PRM_MASK) < n) { table += opc & PRM_MASK; #ifdef PALLOC_TRANSITION P_SDU(prim) = table->soff ? (T_sdu*) (((char*)&prim->data) + table->soff) : 0; #ifndef NO_COPY_ROUTING P_LEN(prim) = table->size + sizeof (T_PRIM_HEADER); #endif /* NO_COPY_ROUTING */ #endif /* PALLOC_TRANSITION */ JUMP (table->func) (P2D(prim)); } else { primitive_not_supported (P2D(prim)); } return PEI_OK; } /* * primitive is not a GSM primitive - forward it to the environment */ if (opc & SYS_MASK) { if(vsi_c_primitive (VSI_CALLER prim) NEQ VSI_OK) { TRACE_ERROR_P1("VSI entity: Can't forward a primitive, uart_pei.c(%d)", __LINE__); } } else { PFREE (P2D(prim)); return PEI_ERROR; } } return PEI_OK; } #ifdef FF_MULTI_PORT /* +------------------------------------------------------------------------------ | Function : pei_uart_driver_signal +------------------------------------------------------------------------------ | Description : The function pei_uart_driver_signal() is the callback function | of the UART driver to indicate events of the driver. This | function is called in interrupt context. It converts the given | opcode to a signal. | | Parameters : usartNo - affected UART port | opcode - opcode of the event | +------------------------------------------------------------------------------ */ GLOBAL void pei_uart_driver_signal (T_DRV_SIGNAL *SigPtr) { T_UART_DATA* uart_device; TRACE_FUNCTION( "pei_uart_driver_signal" ); /* * set UART instance */ uart_device = &uart_data_base[SigPtr->DrvHandle]; /* * activate signal */ switch (SigPtr->SignalType) { case DRV_SIGTYPE_READ: PSIGNAL(hCommUART, UART_DRIVER_RECEIVED_IND, uart_device); break; case DRV_SIGTYPE_WRITE: PSIGNAL(hCommUART, UART_DRIVER_SENT_IND, uart_device); break; case DRV_SIGTYPE_FLUSH: PSIGNAL(hCommUART, UART_DRIVER_FLUSHED_IND, uart_device); break; default: TRACE_ERROR( "pei_uart_driver_signal: unknown signal" ); break; } } /* pei_uart_driver_signal() */ #endif /* FF_MULTI_PORT */ /* +------------------------------------------------------------------------------ | Function : pei_init +------------------------------------------------------------------------------ | Description : This function is called by the frame. It is used to | initialise the entitiy. | | Parameters : handle - task handle | | Return : PEI_OK - entity initialised | PEI_ERROR - entity not (yet) initialised | +------------------------------------------------------------------------------ */ /*qqq hier Kommunikationskanaele eintragen*/ LOCAL SHORT pei_init (T_HANDLE handle) { USHORT i; UBYTE instance; /* * Initialize task handle */ UART_handle = handle; TRACE_FUNCTION ("pei_init"); /* * Open communication channel */ if (hCommMMI < VSI_OK) { if ((hCommMMI = vsi_c_open (VSI_CALLER ACI_NAME)) < VSI_OK) return PEI_ERROR; } if (hCommUART < VSI_OK) { if ((hCommUART = vsi_c_open (VSI_CALLER UART_NAME)) < VSI_OK) return PEI_ERROR; } #ifdef DTILIB /* * initialize dtilib for this entity */ uart_hDTI = dti_init (UART_INSTANCES * UART_MAX_NUMBER_OF_CHANNELS, handle, DTI_DEFAULT_OPTIONS, pei_sig_callback); if(!uart_hDTI) return PEI_ERROR; #else /* DTILIB */ /* * Initialize table with channel ids */ for( i = 0; i < (UART_INSTANCES * UART_MAX_NUMBER_OF_CHANNELS); i++) { uart_cid_table[i].c_id = 0; uart_cid_table[i].uart_data = NULL; uart_cid_table[i].dtx = NULL; uart_cid_table[i].drx = NULL; } #endif /* DTILIB */ /* * send parameters primitive */ { PALLOC (uart_parameters_ind, UART_PARAMETERS_IND); uart_parameters_ind->uart_instances = UART_INSTANCES; PSEND (hCommMMI, uart_parameters_ind); } /* * Initialize timer table */ for( i = 0; i < UART_TIMER_MAX; i++) { uart_timer_table[i].uart_data = &(uart_data_base [(UBYTE)(i / UART_TIMER_PER_INSTANCE)]); uart_timer_table[i].timer_number = (UBYTE)(i % UART_TIMER_PER_INSTANCE); } for( instance = 0; instance < UART_INSTANCES; instance++ ) { /* * Initialize global pointer uart_data. This is required to access all * entity data. */ uart_data = &(uart_data_base[instance]); /* * Initialize DLC table */ for( i = 0; i <= UART_MAX_NUMBER_OF_CHANNELS; i++) { uart_data->dlc_table[i].dlci = UART_DLCI_INVALID; uart_data->dlc_table[i].priority = 0; #ifdef DTILIB uart_data->dlc_table[i].dti_state = DTI_CLOSED; #else /* DTILIB */ uart_data->dlc_table[i].hCommUPLINK = VSI_ERROR; #endif /* DTILIB */ uart_data->dlc_table[i].connection_state = UART_CONNECTION_DEAD; if(i EQ UART_CONTROL_INSTANCE) { uart_data->dlc_table[i].drx = &uart_data->drx_base[0]; uart_data->dlc_table[i].dtx = &uart_data->dtx_base[0]; } else { uart_data->dlc_table[i].drx = &uart_data->drx_base[i]; uart_data->dlc_table[i].dtx = &uart_data->dtx_base[i]; } uart_data->dlc_table[i].transmit_data = NULL; uart_data->dlc_table[i].transmit_pos = 0; uart_data->dlc_table[i].p_counter = 0; uart_data->dlc_table[i].receive_data = NULL; uart_data->dlc_table[i].receive_pos = 0; uart_data->dlc_table[i].receive_size = 0; uart_data->dlc_table[i].receive_process = UART_RX_PROCESS_STOP; uart_data->dlc_table[i].last_command = NULL; uart_data->dlc_table[i].next_command = NULL; uart_data->dlc_table[i].retransmissions = 0; uart_data->dlc_table[i].lines = 0; uart_data->dlc_table[i].service = 0; uart_data->dlc_table[i].codec = 0; uart_data->dlc_table[i].received_prim = 0; uart_data->dlc_table[i].flushed = TRUE; } /* * Initialize DLCI instance table */ for( i = 0; i < 64; i++ ) { uart_data->dlc_instance[i] = UART_EMPTY_INSTANCE; } /* * timer values for this instance */ uart_data->timer_t1_index = (USHORT)(instance * UART_TIMER_PER_INSTANCE) + UART_RT_INDEX_T1; uart_data->timer_t2_index = (USHORT)(instance * UART_TIMER_PER_INSTANCE) + UART_RT_INDEX_T2; uart_data->timer_t3_index = (USHORT)(instance * UART_TIMER_PER_INSTANCE) + UART_RT_INDEX_T3; uart_data->timer_tesd_index = (USHORT)(instance * UART_TIMER_PER_INSTANCE) + UART_RT_INDEX_TESD; /* * set device for this instance */ uart_data->device = instance; uart_data->fcstab = uart_fcstable_base; /* * set device specific values */ uart_data->xon = UART_IO_XON_DEFAULT; uart_data->xoff = UART_IO_XOFF_DEFAULT; uart_data->n1 = UART_N1_READY_MODE; /* * set initial DTX/DRX services */ uart_data->dtx = &(uart_data->dtx_base[0]); uart_data->drx = &(uart_data->drx_base[0]); /* * escape sequence detection */ uart_data->act_ec = 0x2b; /* Escape Character '+' */ uart_data->act_gp = 1000; /* Guard Period */ } /* * qqq Initialize entity data (call init function of every service) * the order of function calls is important */ for( i = 0; i < UART_INSTANCES; i++ ) { uart_data = &(uart_data_base[i]); rt_init(); ker_init(); rx_init(); tx_init(); drx_init(); dtx_init(); } uart_data = &(uart_data_base[0]); return (PEI_OK); } /* +------------------------------------------------------------------------------ | Function : pei_timeout +------------------------------------------------------------------------------ | Description : This function is called by the frame when a timer | has expired. | | Parameters : index - timer index | | Return : PEI_OK - timeout processed | PEI_ERROR - timeout not processed | +------------------------------------------------------------------------------ */ LOCAL SHORT pei_timeout (USHORT index) { TRACE_FUNCTION ("pei_timeout"); /* * set UART instance */ uart_data = uart_timer_table[index].uart_data; /* * Process timeout */ switch (uart_timer_table[index].timer_number) { case UART_RT_INDEX_T1: /* * timer T1 expired. */ rt_t1_expired(); break; case UART_RT_INDEX_T2: /* * timer T2 expired. */ rt_t2_expired(); break; case UART_RT_INDEX_T3: /* * timer T3 expired. */ rt_t3_expired(); break; case UART_RT_INDEX_TESD: /* * Escape Sequence Detection timer expired. */ rt_tesd_expired(); break; default: TRACE_ERROR("pei_timeout: Unknown Timeout"); break; } return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_signal +------------------------------------------------------------------------------ | Description : This function is called by the frame when a signal | has been received. | | Parameters : opc - signal operation code | *data - pointer to primitive | | Return : PEI_OK - signal processed | PEI_ERROR - signal not processed | +------------------------------------------------------------------------------ */ LOCAL SHORT pei_signal (ULONG opc, void *data) { TRACE_FUNCTION ("pei_signal"); #ifdef FF_MULTI_PORT /* * Process signal */ switch (opc) { case UART_DRIVER_SENT_IND: tx_uart_driver_sent_ind(data); break; case UART_DRIVER_RECEIVED_IND: rx_uart_driver_received_ind(data); break; case UART_DRIVER_FLUSHED_IND: tx_uart_driver_flushed_ind(data); break; default: TRACE_ERROR("Unknown Signal OPC"); return PEI_ERROR; } #else /* FF_MULTI_PORT */ /* * Process signal */ switch (opc) { case UART_DRIVER_SENT_IND: tx_uart_driver_sent_ind(data); break; case UART_DRIVER_RECEIVED_IND: rx_uart_driver_received_ind(data); break; default: TRACE_ERROR("Unknown Signal OPC"); break; } #endif /* FF_MULTI_PORT */ return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_exit +------------------------------------------------------------------------------ | Description : This function is called by the frame when the entity | is terminated. All open resources are freed. | | Parameters : - | | Return : PEI_OK - exit sucessful | PEI_ERROR - exit not sueccessful | +------------------------------------------------------------------------------ */ LOCAL SHORT pei_exit (void) { TRACE_FUNCTION ("pei_exit"); #ifdef DTILIB #ifdef _SIMULATION_ /* * close test channel */ #endif /* _SIMULATION_ */ /* * Shut down dtilib communication */ dti_deinit(uart_hDTI); #endif /* DTILIB */ /* * Close communication channel to MMI */ if(vsi_c_close (VSI_CALLER hCommMMI) NEQ VSI_OK) { TRACE_ERROR_P1("VSI entity: CloseComChannel to MMI failed, uart_pei.c(%d)", __LINE__); return PEI_ERROR; } hCommMMI = VSI_ERROR; /* * Free all resources */ drx_free_resources(); dtx_exit(); return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_run +------------------------------------------------------------------------------ | Description : This function is called by the frame when entering | the main loop. This function is only required in the | active variant. | | This function is not used. | | Parameters : handle - Communication handle | | Return : PEI_OK - sucessful | PEI_ERROR - not successful | +------------------------------------------------------------------------------ */ LOCAL SHORT pei_run (T_HANDLE TaskHandle, T_HANDLE ComHandle ) { return PEI_OK; } /* pei_run() */ /* +------------------------------------------------------------------------------ | Function : pei_monitor +------------------------------------------------------------------------------ | Description : This function is called by the frame in case sudden | entity specific data is requested | (e.g. entity Version). | | Parameters : out_monitor - return the address of the data to be | monitoredCommunication handle | | Return : PEI_OK - sucessful | (address in out_monitor is valid) | PEI_ERROR - not successful | +------------------------------------------------------------------------------ */ LOCAL SHORT pei_monitor (void ** out_monitor) { TRACE_FUNCTION ("pei_monitor"); /* * Version = "0.S" (S = Step). */ uart_mon.version = VERSION_UART; *out_monitor = &uart_mon; return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_config +------------------------------------------------------------------------------ | Description : This function is called by the frame when a primitive | is received indicating dynamic configuration. | | This function is not used in this entity. | | Parameters : handle - Communication handle | | Return : PEI_OK - sucessful | PEI_ERROR - not successful | +------------------------------------------------------------------------------ */ LOCAL SHORT pei_config (T_PEI_CONFIG inString) { TRACE_FUNCTION ("pei_config"); TRACE_FUNCTION (inString); return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_create +------------------------------------------------------------------------------ | Description : This function is called by the frame when the process | is created. | | Parameters : out_name - Pointer to the buffer in which to | locate the name of this entity | | Return : PEI_OK - entity created successfuly | PEI_ERROR - entity could not be created | +------------------------------------------------------------------------------ */ GLOBAL SHORT pei_create (T_PEI_INFO **info) { static T_PEI_INFO pei_info = { "UART", /* name */ { /* pei-table */ pei_init, #ifdef _SIMULATION_ pei_exit, #else NULL, #endif pei_primitive, pei_timeout, pei_signal, pei_run, pei_config, pei_monitor }, 1024, /* stack size */ 10, /* queue entries */ 200, /* priority (1->low, 255->high) */ UART_TIMER_MAX, /* number of timers */ 0x03|PRIM_NO_SUSPEND /* flags: bit 0 active(0) body/passive(1) */ }; /* bit 1 com by copy(0)/reference(1) */ TRACE_FUNCTION ("pei_create"); /* * Close Resources if open */ #ifdef _SIMULATION_ if (first_access) { first_access = FALSE; } else { if(pei_exit() NEQ PEI_OK) { TRACE_ERROR_P1("UART PEI: Can't free open recources, uart_pei.c(%d)", __LINE__); } } #endif /* * Export startup configuration data */ *info = &pei_info; return PEI_OK; } #ifndef DTILIB /* +------------------------------------------------------------------------------ | Function : pei_select_instances +------------------------------------------------------------------------------ | Description : This function selects the correct UART and DTX/DRX services | for an incoming DTI interface primitive. This is done by a | lookup in the UART channel id table in order to determine | the correct UART, DTX and DRX data structures. | | Parameters : c_id - channel id of incoming primitive | | Return : TRUE - successful | FALSE - not successful | +------------------------------------------------------------------------------ */ GLOBAL UBYTE pei_select_instances( UBYTE incoming_c_id ) { USHORT i; UBYTE found = FALSE; TRACE_FUNCTION ("pei_select_instances"); /* * locate the channel id in the global cid table */ for( i = 0; i < UART_INSTANCES * UART_MAX_NUMBER_OF_CHANNELS; i++ ) if( uart_cid_table[i].c_id EQ incoming_c_id ) if( ( uart_cid_table[i].dtx NEQ NULL ) && ( uart_cid_table[i].drx NEQ NULL ) && ( uart_cid_table[i].uart_data NEQ NULL ) ) { /* * channel id found. select service structures */ uart_data = uart_cid_table[i].uart_data; uart_data->dtx = uart_cid_table[i].dtx; uart_data->drx = uart_cid_table[i].drx; found = TRUE; break; } if( found EQ FALSE ) { TRACE_EVENT(" pei_select_instances: unknown c_id "); } #ifdef _SIMULATION_ { char buf[64]; sprintf(buf,"found incoming_c_id: 0x%02X in uart_cid_table[%d]",incoming_c_id, i); TRACE_EVENT(buf); } #endif return( found ); } /* pei_select_instances */ #endif /* DTILIB */ /* * maps for DTILIB functions */ #ifdef DTILIB /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_connect_req +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_connect_req +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_connect_req (T_DTI2_CONNECT_REQ* dti_connect_req) { dti_dti_connect_req (uart_hDTI, dti_connect_req); } /* pei_dti_dti_connect_req() */ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_connect_res +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_connect_res +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_connect_res (T_DTI2_CONNECT_RES* dti_connect_res) { dti_dti_connect_res(uart_hDTI, dti_connect_res); } /* pei_dti_dti_connect_res() */ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_disconnect_req +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_disconnect_req +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_disconnect_req (T_DTI2_DISCONNECT_REQ* dti_disconnect_req) { dti_dti_disconnect_req (uart_hDTI, dti_disconnect_req); } /* pei_dti_dti_disconnect_req() */ #ifdef _SIMULATION_ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_connect_ind +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_connect_ind +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_connect_ind (T_DTI2_CONNECT_IND* dti_connect_ind) { dti_dti_connect_ind (uart_hDTI, dti_connect_ind); } /* pei_dti_dti_connect_ind() */ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_connect_cnf +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_connect_cnf +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_connect_cnf (T_DTI2_CONNECT_CNF* dti_connect_cnf) { dti_dti_connect_cnf(uart_hDTI, dti_connect_cnf); } /* pei_dti_dti_connect_cnf() */ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_disconnect_ind +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_disconnect_ind +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_disconnect_ind (T_DTI2_DISCONNECT_IND* dti_disconnect_ind) { dti_dti_disconnect_ind (uart_hDTI, dti_disconnect_ind); } /* pei_dti_dti_disconnect_ind() */ #endif /*_SIMULATION_*/ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_data_req +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_data_req +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_data_req (T_DTI2_DATA_REQ* dti_data_req) { dti_dti_data_req (uart_hDTI, dti_data_req); } /* pei_dti_dti_data_req() */ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_getdata_req +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_getdata_req +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_getdata_req (T_DTI2_GETDATA_REQ* dti_getdata_req) { dti_dti_getdata_req (uart_hDTI, dti_getdata_req); } /* pei_dti_dti_getdata_req() */ /*==== Start functions only use with Windows ===============================*/ #ifdef _SIMULATION_ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_data_test_req +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_data_test_req +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_data_test_req (T_DTI2_DATA_TEST_REQ* dti_data_test_req) { dti_dti_data_test_req (uart_hDTI, dti_data_test_req); } /* pei_dti_dti_data_test_req() */ /*==== End functions only used with testing from WIN32 =====================*/ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_ready_ind +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_ready_ind +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_ready_ind (T_DTI2_READY_IND* dti_ready_ind) { dti_dti_ready_ind (uart_hDTI, dti_ready_ind); } /* pei_dti_dti_ready_ind() */ /* +------------------------------------------------------------------------------ | Function : pei_dti_dti_data_ind +------------------------------------------------------------------------------ | PURPOSE : Call the process function dti_dti_data_ind +------------------------------------------------------------------------------ */ LOCAL void pei_dti_dti_data_ind (T_DTI2_DATA_IND* dti_data_ind) { dti_dti_data_ind (uart_hDTI, dti_data_ind); } /* pei_dti_dti_data_ind() */ #endif /* _SIMULATION_ */ /* +------------------------------------------------------------------------------ | Function : pei_sig_callback +------------------------------------------------------------------------------ | PURPOSE : Callback function for DTILIB +------------------------------------------------------------------------------ */ LOCAL void pei_sig_callback(U8 instance, U8 interfac, U8 channel, U8 reason, T_DTI2_DATA_IND *dti_data2_ind) { T_DLC *dlc; TRACE_FUNCTION("pei_sig_callback"); if(interfac NEQ UART_DTI_UP_INTERFACE) { TRACE_ERROR("[PEI_SIG_CALLBACK] interface not valid!"); return; /* error, not found */ } uart_data = &uart_data_base[instance]; if (uart_hDTI NEQ D_NO_DATA_BASE) { switch (reason) { case DTI_REASON_CONNECTION_OPENED: dlc = &uart_data->dlc_table[channel]; /* channel is dlci */ uart_data->drx = dlc->drx; uart_data->dtx = dlc->dtx; sig_dti_ker_connection_opened_ind(channel); break; case DTI_REASON_CONNECTION_CLOSED: dlc = &uart_data->dlc_table[channel]; /* channel is dlci */ uart_data->drx = dlc->drx; uart_data->dtx = dlc->dtx; sig_dti_ker_connection_closed_ind(channel); break; case DTI_REASON_DATA_RECEIVED: if(!uart_data) { /* * instance not found, primitive was invalid, discard it */ PFREE_DESC2( dti_data2_ind ); } else { dlc = &uart_data->dlc_table[channel]; /* channel is dlci */ uart_data->drx = dlc->drx; uart_data->dtx = dlc->dtx; sig_dti_drx_data_received_ind(dti_data2_ind); } break; case DTI_REASON_TX_BUFFER_FULL: if(!uart_data) { TRACE_ERROR("[PEI_SIG_CALLBACK] instance not valid!"); return; /* error, not found */ } dlc = &uart_data->dlc_table[channel]; /* channel is dlci */ uart_data->drx = dlc->drx; uart_data->dtx = dlc->dtx; sig_dti_dtx_tx_buffer_full_ind(); break; case DTI_REASON_TX_BUFFER_READY: if(!uart_data) { TRACE_ERROR("[PEI_SIG_CALLBACK] instance not valid!"); return; /* error, not found */ } dlc = &uart_data->dlc_table[channel]; /* channel is dlci */ uart_data->drx = dlc->drx; uart_data->dtx = dlc->dtx; sig_dti_dtx_tx_buffer_ready_ind(); break; default: TRACE_ERROR("unknown DTILIB reason parameter"); break; } /* end switch */ } /* end if */ else { TRACE_ERROR("Pointer to DTILIB database not existing"); } } /* pei_sig_callback() */ /*==== End of functions only used with DTILIB =================================*/ #endif /* DTILIB */ /*==== END OF FILE ==========================================================*/