FreeCalypso > hg > fc-magnetite
diff src/cs/drivers/drv_app/uart/serialswitch.c @ 0:945cf7f506b2
src/cs: chipsetsw import from tcs211-fcmodem
binary blobs and LCD demo files have been excluded,
all line endings are LF only
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 25 Sep 2016 22:50:11 +0000 |
parents | |
children | 67d1fd7c824c |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/cs/drivers/drv_app/uart/serialswitch.c Sun Sep 25 22:50:11 2016 +0000 @@ -0,0 +1,3470 @@ +/******************************************************************************* + * + * SERIALSWITCH.C + * + * This module allows managing the use of the serial ports of TI GSM Evaluation + * Boards. + * An application may have to send several serial data flows. The board on which + * the application is running may have one or several devices. The purpose of + * this module is to establish connections between the serial data flows and the + * serial devices at runtime, when the application is started. + * + * (C) Texas Instruments 1999 - 2003 + * + ******************************************************************************/ + +#define __SERIALSWITCH_C__ + +#define __STANDARD_H__ /* Avoid to define UBYTE, SYS_UWORD16 and UINT32. */ + +#include "main/sys_types.h" +#include "nucleus.h" + +#include "traceswitch.h" +#include "faxdata.h" +#include "serialswitch.h" + +#include "uart/uart.h" +#include "uartfax.h" + +#include "memif/mem.h" + +#include "l1sw.cfg" +#if (!OP_L1_STANDALONE) + #include "rv.cfg" +#endif +#include "chipset.cfg" +#include "swconfig.cfg" +#ifdef BLUETOOTH_INCLUDED +#include "btemobile.cfg" +#endif + +#include <string.h> /* needed for memcmp & memset */ + +#if (defined (BTEMOBILE) && (CHIPSET != 12)) + #include "ffs/ffs.h" + #include "rvf/rvf_api.h" + #include "inth/iq.h" + #include "rvt/rvt_def_i.h" /* needed for Riviera/Layer1 Trace's callback function */ +#endif + +#if defined(BTEMOBILE) + #include "hci_ser.h" +#endif + +#define DUMMY_DEVICE (0) + +#define IIR (0x02) /* UART interrupt ident. register - Read only */ +#define SCR (0x10) /* UART suppl. control register - Read/Write */ +#define SSR (0x11) /* UART suppl. status register - Read only */ + +/* + * Interrupt identification register. + * Bit 0 is set to 0 if an IT is pending. + * Bits 1 and 2 are used to identify the IT. + */ + +#define IIR_BITS_USED (0x07) +#define IT_NOT_PENDING (0x01) + +/* + * Supplementary Control Register + */ + +#define RX_CTS_WAKE_UP_ENABLE_BIT (4) + +/* + * Supplementary Status Register + */ + +#define RX_CTS_WAKE_UP_STS (0x02) /* Wake-up interrupt occurred */ + +/* + * This macro allows to read an UART register. + */ + +#define READ_UART_REGISTER(UART,REG) \ + *((volatile SYS_UWORD8 *) ((UART)->base_address + (REG))) + + +/* + * This macro allows to disable the UART's wake-up interrupt. + */ + +#define DISABLE_WAKE_UP_INTERRUPT(UART) \ + *((volatile SYS_UWORD8 *) ((UART)->base_address + SCR)) &= \ + ~(1 << (RX_CTS_WAKE_UP_ENABLE_BIT)); + +/* + * Wake-up time duration in seconds and in number of TDMAs. + * 1 TDMA = (6 / 1300) s = 0.004615 s (= 4.615 ms). + */ + +#define WAKE_UP_TIME_DURATION (10) /* 10 seconds */ +#define WAKE_UP_TIME_IN_TDMA (WAKE_UP_TIME_DURATION * 1300 / 6) + + +/* + * Global uartswitch variable as read from FFS. + * It is supposed that NUMBER_OF_TR_UART, NUMBER_OF_FD_UART + * and NUMBER_OF_BT_UART have the same values. + */ + +#define DUMMY ('0') +#define G23_PANEL ('G') +#define RIVIERA_TRACE_MUX ('R') +#define FD_AT_COMMAND ('D') +#define BLUETOOTH_HCI ('B') + +#if (CHIPSET == 12) + char ser_cfg_info[NUMBER_OF_TR_UART] = {DUMMY, DUMMY, DUMMY}; +#else + char ser_cfg_info[NUMBER_OF_TR_UART] = {DUMMY, DUMMY}; +#endif +static SYS_UWORD16 serial_cfg = 0x0048; /* All dummies */ + +#if (defined BTEMOBILE && (CHIPSET != 12)) + /* + * Global variables used for Dynamic Switch. + */ + + static char ser_new_cfg[NUMBER_OF_TR_UART] = {DUMMY, DUMMY}; + const static char uart_config_file[] = "/sys/uartswitch"; + static SYS_BOOL dynamic_switch = 0; + + /* Import Serial Info structure. */ + extern T_AppliSerialInfo appli_ser_cfg_info; +#endif + +/* + * Types of flows supported. + */ + +typedef enum { + TRACE_FLOW, + FAX_DATA_FLOW, + BLUETOOTH_HCI_FLOW +} t_flow_type; + +/* + * For each serial data flow, a set of function pointers allows calling the + * functions associated to a serial device. + */ + +typedef struct s_tr_functions { + + T_tr_UartId device; + + void (*tr_Init) (T_tr_UartId device, + T_tr_Baudrate baudrate, + void (callback_function (void))); + + SYS_UWORD32 (*tr_ReadNChars) (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_read); + + SYS_UWORD32 (*tr_ReadNBytes) (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_read, + SYS_BOOL *eof_detected); + + SYS_UWORD32 (*tr_WriteNChars) (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_write); + + SYS_UWORD32 (*tr_EncapsulateNChars) (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_write); + + SYS_UWORD32 (*tr_WriteNBytes) (T_tr_UartId device, + SYS_UWORD8 *buffer, + SYS_UWORD32 chars_to_write); + + void (*tr_WriteChar) (T_tr_UartId device, + char character); + + void (*tr_WriteString) (T_tr_UartId device, + char *buffer); + + SYS_BOOL (*tr_EnterSleep) (T_tr_UartId device); + + void (*tr_WakeUp) (T_tr_UartId device); + +} t_tr_functions; + +/* + * Set of function pointers for fax & data functions. + */ + +typedef struct s_fd_functions { + + T_fd_UartId device; + + T_FDRET (*fd_Initialize) (T_fd_UartId device); + + T_FDRET (*fd_Enable) (T_fd_UartId device, + SYS_BOOL enable); + + T_FDRET (*fd_SetComPar) (T_fd_UartId device, + T_baudrate baudrate, + T_bitsPerCharacter bpc, + T_stopBits sb, + T_parity parity); + + T_FDRET (*fd_SetBuffer) (T_fd_UartId device, + SYS_UWORD16 bufSize, + SYS_UWORD16 rxThreshold, + SYS_UWORD16 txThreshold); + + T_FDRET (*fd_SetFlowCtrl) (T_fd_UartId device, + T_flowCtrlMode fcMode, + SYS_UWORD8 XON, + SYS_UWORD8 XOFF); + + T_FDRET (*fd_SetEscape) (T_fd_UartId device, + SYS_UWORD8 escChar, + SYS_UWORD16 guardPeriod); + + T_FDRET (*fd_InpAvail) (T_fd_UartId device); + + T_FDRET (*fd_OutpAvail) (T_fd_UartId device); + + T_FDRET (*fd_EnterSleep) (T_fd_UartId device); + + T_FDRET (*fd_WakeUp) (T_fd_UartId device); + + T_FDRET (*fd_ReadData) (T_fd_UartId device, + T_suspendMode suspend, + void (readOutFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 nsource, + SYS_UWORD8 *source[], + SYS_UWORD16 size[], + SYS_UWORD32 state))); + + T_FDRET (*fd_WriteData) (T_fd_UartId device, + T_suspendMode suspend, + void (writeInFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 ndest, + SYS_UWORD8 *dest[], + SYS_UWORD16 size[]))); + + T_FDRET (*fd_StopRec) (T_fd_UartId device); + + T_FDRET (*fd_StartRec) (T_fd_UartId device); + + T_FDRET (*fd_GetLineState) (T_fd_UartId device, + SYS_UWORD32 *state); + + T_FDRET (*fd_SetLineState) (T_fd_UartId device, + SYS_UWORD32 state, + SYS_UWORD32 mask); + + T_FDRET (*fd_CheckXEmpty) (T_fd_UartId device); + +} t_fd_functions; + +#ifdef BTEMOBILE + /* + * Set of function pointers for Bluetooth HCI functions. + */ + + typedef struct s_bt_functions { + + T_bt_UartId device; + + T_HCI_RET (*bt_Init) (T_bt_UartId uart_device); + + T_HCI_RET (*bt_Start) (void); + + T_HCI_RET (*bt_Stop) (void); + + T_HCI_RET (*bt_Kill) (void); + + T_HCI_RET (*bt_SetBaudrate) (UINT8 baudrate); + + T_HCI_RET (*bt_TransmitPacket) (void *uart_tx_buffer); + + SYS_BOOL (*bt_EnterSleep) (void); + + void (*bt_WakeUp) (void); + + } t_bt_functions; +#endif + +/* + * Prototypes of dummy functions. + * Dummy functions for Trace. + */ + +static void dummy_tr_Init (T_tr_UartId device, + T_tr_Baudrate baudrate, + void (callback_function (void))); + +static SYS_UWORD32 dummy_tr_ReadNChars (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_read); + +static SYS_UWORD32 dummy_tr_ReadNBytes (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_read, + SYS_BOOL *eof_detected); + +static SYS_UWORD32 dummy_tr_WriteNChars (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_write); + +static SYS_UWORD32 dummy_tr_EncapsulateNChars (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_write); + +static SYS_UWORD32 dummy_tr_WriteNBytes (T_tr_UartId device, + SYS_UWORD8 *buffer, + SYS_UWORD32 chars_to_write); + +static void dummy_tr_WriteChar (T_tr_UartId device, + char character); + +static void dummy_tr_WriteString (T_tr_UartId device, + char *buffer); + +static SYS_BOOL dummy_tr_EnterSleep (T_tr_UartId device); + +static void dummy_tr_WakeUp (T_tr_UartId device); + +/* + * Dummy functions for Fax & Data. + */ + +static T_FDRET dummy_fd_Init (T_fd_UartId device); + +static T_FDRET dummy_fd_Enable (T_fd_UartId device, + SYS_BOOL enable); + +static T_FDRET dummy_fd_SetComPar (T_fd_UartId device, + T_baudrate baudrate, + T_bitsPerCharacter bpc, + T_stopBits sb, + T_parity parity); + +static T_FDRET dummy_fd_SetBuffer (T_fd_UartId device, + SYS_UWORD16 bufSize, + SYS_UWORD16 rxThreshold, + SYS_UWORD16 txThreshold); + +static T_FDRET dummy_fd_SetFlowCtrl (T_fd_UartId device, + T_flowCtrlMode fcMode, + SYS_UWORD8 XON, + SYS_UWORD8 XOFF); + +static T_FDRET dummy_fd_SetEscape (T_fd_UartId device, + SYS_UWORD8 escChar, + SYS_UWORD16 guardPeriod); + +static T_FDRET dummy_fd_InpAvail (T_fd_UartId device); + +static T_FDRET dummy_fd_OutpAvail (T_fd_UartId device); + +static T_FDRET dummy_fd_EnterSleep (T_fd_UartId device); + +static T_FDRET dummy_fd_WakeUp (T_fd_UartId device); + +static T_FDRET dummy_fd_ReadData (T_fd_UartId device, + T_suspendMode suspend, + void (readOutFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 nsource, + SYS_UWORD8 *source[], + SYS_UWORD16 size[], + SYS_UWORD32 state))); + +static T_FDRET dummy_fd_WriteData (T_fd_UartId device, + T_suspendMode suspend, + void (writeInFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 ndest, + SYS_UWORD8 *dest[], + SYS_UWORD16 size[]))); + +static T_FDRET dummy_fd_StopRec (T_fd_UartId device); + +static T_FDRET dummy_fd_StartRec (T_fd_UartId device); + +static T_FDRET dummy_fd_GetLineState (T_fd_UartId device, + SYS_UWORD32 *state); + +static T_FDRET dummy_fd_SetLineState (T_fd_UartId device, + SYS_UWORD32 state, + SYS_UWORD32 mask); + +static T_FDRET dummy_fd_CheckXEmpty (T_fd_UartId device); + +#ifdef BTEMOBILE + /* + * Dummy functions for Bluetooth HCI. + */ + + static T_HCI_RET dummy_bt_Init (T_bt_UartId uart_device); + + static T_HCI_RET dummy_bt_Start (void); + + static T_HCI_RET dummy_bt_Stop (void); + + static T_HCI_RET dummy_bt_Kill (void); + + static T_HCI_RET dummy_bt_SetBaudrate (UINT8 baudrate); + + static T_HCI_RET dummy_bt_TransmitPacket (void *uart_tx_buffer); + + static SYS_BOOL dummy_bt_EnterSleep (void); + + static void dummy_bt_WakeUp (void); + +#endif + +/* + * Constants tables representing the various possible configurations + * for Trace, Fax & Data and Bluetooth HCI according to the different devices. + * Constant table for Trace using no device. + */ + +static const t_tr_functions dummy_trace = { + + DUMMY_DEVICE, + dummy_tr_Init, + dummy_tr_ReadNChars, + dummy_tr_ReadNBytes, + dummy_tr_WriteNChars, + dummy_tr_EncapsulateNChars, + dummy_tr_WriteNBytes, + dummy_tr_WriteChar, + dummy_tr_WriteString, + dummy_tr_EnterSleep, + dummy_tr_WakeUp +}; + +/* + * Constant table for Trace using UART IrDA. + */ + +static const t_tr_functions uart_irda_trace = { + + UA_UART_0, + UA_Init, + UA_ReadNChars, + UA_ReadNBytes, + UA_WriteNChars, + UA_EncapsulateNChars, + UA_WriteNBytes, + UA_WriteChar, + UA_WriteString, + UA_EnterSleep, + UA_WakeUp +}; + +/* + * Constant table for Trace using UART Modem. + */ + +static const t_tr_functions uart_modem_trace = { + + UA_UART_1, + UA_Init, + UA_ReadNChars, + UA_ReadNBytes, + UA_WriteNChars, + UA_EncapsulateNChars, + UA_WriteNBytes, + UA_WriteChar, + UA_WriteString, + UA_EnterSleep, + UA_WakeUp +}; + +#if (CHIPSET == 12) + /* + * Constant table for Trace using UART Modem2. + */ + + static const t_tr_functions uart_modem2_trace = { + + UA_UART_2, + UA_Init, + UA_ReadNChars, + UA_ReadNBytes, + UA_WriteNChars, + UA_EncapsulateNChars, + UA_WriteNBytes, + UA_WriteChar, + UA_WriteString, + UA_EnterSleep, + UA_WakeUp + }; +#endif + +/* + * Constant table for Fax & Data using no device. + */ + +static const t_fd_functions dummy_fax_data = { + + DUMMY_DEVICE, + dummy_fd_Init, + dummy_fd_Enable, + dummy_fd_SetComPar, + dummy_fd_SetBuffer, + dummy_fd_SetFlowCtrl, + dummy_fd_SetEscape, + dummy_fd_InpAvail, + dummy_fd_OutpAvail, + dummy_fd_EnterSleep, + dummy_fd_WakeUp, + dummy_fd_ReadData, + dummy_fd_WriteData, + dummy_fd_StopRec, + dummy_fd_StartRec, + dummy_fd_GetLineState, + dummy_fd_SetLineState, + dummy_fd_CheckXEmpty +}; + +/* + * Constant table for Fax & Data using UART Modem. + */ + +static const t_fd_functions uart_modem_fax_data = { + + UAF_UART_1, + UAF_Init, + UAF_Enable, + UAF_SetComPar, + UAF_SetBuffer, + UAF_SetFlowCtrl, + UAF_SetEscape, + UAF_InpAvail, + UAF_OutpAvail, + UAF_EnterSleep, + UAF_WakeUp, + UAF_ReadData, + UAF_WriteData, + UAF_StopRec, + UAF_StartRec, + UAF_GetLineState, + UAF_SetLineState, + UAF_CheckXEmpty +}; + +#ifdef BTEMOBILE + /* + * Constant table for BT HCI using no device. + */ + + static const t_bt_functions dummy_bt_hci = { + + DUMMY_DEVICE, + dummy_bt_Init, + dummy_bt_Start, + dummy_bt_Stop, + dummy_bt_Kill, + dummy_bt_SetBaudrate, + dummy_bt_TransmitPacket, + dummy_bt_EnterSleep, + dummy_bt_WakeUp + }; + + /* + * Constant table for BT HCI using UART IrDA. + */ + + static const t_bt_functions uart_irda_bt_hci = { + + UABT_UART_0, + hciu_init, + hciu_start, + hciu_stop, + hciu_kill, + hciu_set_baudrate, + hciu_transmit_packet, + hciu_enter_sleep, + hciu_wakeup + }; + + /* + * Constant table for BT HCI using UART Modem. + */ + + static const t_bt_functions uart_modem_bt_hci = { + + UABT_UART_1, + hciu_init, + hciu_start, + hciu_stop, + hciu_kill, + hciu_set_baudrate, + hciu_transmit_packet, + hciu_enter_sleep, + hciu_wakeup + }; + + #if (CHIPSET == 12) + /* + * Constant table for BT HCI using UART Modem2. + */ + + static const t_bt_functions uart_modem2_bt_hci = { + + UABT_UART_2, + hciu_init, + hciu_start, + hciu_stop, + hciu_kill, + hciu_set_baudrate, + hciu_transmit_packet, + hciu_go_to_sleep, + hciu_wakeup + }; + #endif +#endif + +#if (defined BTEMOBILE && (CHIPSET != 12)) + /* + * Structure used to store initialization parameters related to the AT-Cmd/F&D flow. + * Numbers of paramaters (in case of multiple calls) have been figured out from + * Condat AT-Command/F&D flow initialization. + */ + + typedef struct s_data_flow { + + /* + * Parameters related to SER_fd_SetComPar (2 calls) + */ + T_baudrate baudrate[2]; + T_bitsPerCharacter bpc[2]; + T_stopBits sb[2]; + T_parity parity[2]; + + /* + * Parameters related to SER_fd_SetBuffer + */ + SYS_WORD16 bufSize; + SYS_WORD16 rxThreshold; + SYS_WORD16 txThreshold; + + /* + * Parameters related to SER_fd_SetFlowCtrl (2 calls) + */ + T_flowCtrlMode fcMode[2]; + SYS_UWORD8 XON[2]; + SYS_UWORD8 XOFF[2]; + + /* + * Parameters related to SER_fd_SetEscape (2 calls) + */ + SYS_UWORD8 escChar[2]; + SYS_UWORD16 guardPeriod[2]; + + /* + * Parameters related to SER_fd_SetLineState (4 calls) + */ + SYS_UWORD32 state[4]; + SYS_UWORD32 mask[4]; + + /* + * Parameters related to SER_fd_ReadData + */ + T_suspendMode suspend_rd; + void (*readOutFunc) (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 nsource, + SYS_UWORD8 *source[], + SYS_UWORD16 size[], + SYS_UWORD32 state); + /* + * Parameters related to SER_fd_WriteData + */ + T_suspendMode suspend_wr; + void (*writeInFunc) (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 ndest, + SYS_UWORD8 *dest[], + SYS_UWORD16 size[]); + + } t_data_flow; +#endif /* (defined BTEMOBILE && (CHIPSET != 12)) */ + +/* + * UART structure used for UARTs. + */ + +typedef struct s_uart { + + SYS_UWORD32 base_address; + SYS_BOOL device_used; + SYS_BOOL deep_sleep_set_up; + t_flow_type flow_type; + SYS_WORD16 flow_id; + void (*interrupt_handler) (int uart_id, + SYS_UWORD8 interrupt_status); + +} t_uart; + +static const t_tr_functions *tr_functions[SER_MAX_NUMBER_OF_FLOWS]; +static const t_fd_functions *fd_functions; + +#ifdef BTEMOBILE + static const t_bt_functions *bt_functions; + + #if (CHIPSET != 12) + static SYS_BOOL uart_fd_initialized = 0; + #endif +#endif + +static SYS_UWORD8 fd_buffer[FD_MAX_BUFFER_SIZE]; +static SYS_BOOL fd_driver_enabled; + +#if (defined BTEMOBILE && (CHIPSET != 12)) + static t_data_flow data_flow_parameters; +#else + static SYS_WORD16 bufSize; +#endif + +#if (defined BTEMOBILE && (CHIPSET != 12)) + /* + * Variables used to count calls to SER_fd_XXX functions. + */ + + static SYS_UWORD8 fd_UAF_SetBuffer = 0; + static SYS_UWORD8 fd_UAF_SetEscape = 0; + static SYS_UWORD8 fd_UAF_SetComPar = 0; + static SYS_UWORD8 fd_UAF_SetFlowCtrl = 0; + static SYS_UWORD8 fd_UAF_ReadData = 0; + static SYS_UWORD8 fd_UAF_SetLineState = 0; + static SYS_UWORD8 fd_UAF_WriteData = 0; +#endif + +/* + * Timer used for duration control when UARTs are waked up by an interrupt or + * each time any new incoming characters are received; This timer prevents the + * system to enter deep sleep mode. + */ + +static NU_TIMER uart_sleep_timer; + SYS_BOOL uart_sleep_timer_enabled; + +/* + * HISR used to reset and restart the sleep timer from an UART use by a Trace + * flow in case of incoming characters. + */ + +#define TIMER_HISR_PRIORITY (2) +#define TIMER_HISR_STACK_SIZE (512) /* Bytes. */ + +static NU_HISR timer_hisr_ctrl_block; +static char timer_hisr_stack[TIMER_HISR_STACK_SIZE]; + +/* + * For next arrays, it is supposed that NUMBER_OF_TR_UART, NUMBER_OF_FD_UART + * and NUMBER_OF_BT_UART have the same values. + * An index on an internal uart for trace, fax & data or bluetooth hci reffers + * to the same uart device. + */ + +static t_uart int_uart[NUMBER_OF_TR_UART]; + +#if ((CHIPSET == 2) || (CHIPSET == 3)) + static SYS_UWORD32 uart_spurious_interrupts; +#elif ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) + static SYS_UWORD32 uart_modem_spurious_interrupts; + static SYS_UWORD32 uart_irda_spurious_interrupts; +#endif +#if (CHIPSET == 12) + static SYS_UWORD32 uart_modem2_spurious_interrupts; +#endif + +static const SYS_UWORD32 uart_base_address[NUMBER_OF_TR_UART] = +{ + MEM_UART_IRDA, + MEM_UART_MODEM + #if (CHIPSET == 12) + , MEM_UART_MODEM2 + #endif +}; + + +/******************************************************************************* + * + * dummy_tr_Init + * + * Purpose: No action. + * + * Parameters: See SER_tr_Init. + * + * Return: none + * + ******************************************************************************/ + +static void +dummy_tr_Init (T_tr_UartId device, + T_tr_Baudrate baudrate, + void (callback_function (void))) +{ + /* + * No action. + */ +} + +/******************************************************************************* + * + * dummy_tr_ReadNChars + * + * Purpose: No action. + * + * Parameters: See SER_tr_ReadNChars. + * + * Return: 0 + * + ******************************************************************************/ + +static SYS_UWORD32 +dummy_tr_ReadNChars (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_read) +{ + return (0); +} + +/******************************************************************************* + * + * dummy_tr_ReadNBytes + * + * Purpose: No action. + * + * Parameters: See SER_tr_ReadNBytes. + * + * Return: 0 + * + ******************************************************************************/ + +static SYS_UWORD32 +dummy_tr_ReadNBytes (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_read, + SYS_BOOL *eof_detected) +{ + return (0); +} + +/******************************************************************************* + * + * dummy_tr_WriteNChars + * + * Purpose: No action. + * + * Parameters: See SER_tr_WriteNChars. + * + * Return: The number of character to write. + * + ******************************************************************************/ + +static SYS_UWORD32 +dummy_tr_WriteNChars (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_write) +{ + return (chars_to_write); +} + +/******************************************************************************* + * + * dummy_tr_EncapsulateNChars + * + * Purpose: No action. + * + * Parameters: See SER_tr_EncapsulateNChars. + * + * Return: The number of character to write. + * + ******************************************************************************/ + +static SYS_UWORD32 +dummy_tr_EncapsulateNChars (T_tr_UartId device, + char *buffer, + SYS_UWORD32 chars_to_write) +{ + return (chars_to_write); +} + +/******************************************************************************* + * + * dummy_tr_WriteNBytes + * + * Purpose: No action. + * + * Parameters: See SER_tr_WriteNBytes. + * + * Return: The number of byte to write. + * + ******************************************************************************/ + +static SYS_UWORD32 +dummy_tr_WriteNBytes (T_tr_UartId device, + SYS_UWORD8 *buffer, + SYS_UWORD32 chars_to_write) +{ + return (chars_to_write); +} + +/******************************************************************************* + * + * dummy_tr_WriteChar + * + * Purpose: No action. + * + * Parameters: See SER_tr_WriteChar. + * + * Return: none + * + ******************************************************************************/ + +static void +dummy_tr_WriteChar (T_tr_UartId device, + char character) +{ + /* + * No action. + */ +} + +/******************************************************************************* + * + * dummy_tr_WriteString + * + * Purpose: No action. + * + * Parameters: See SER_tr_WriteString. + * + * Return: none + * + ******************************************************************************/ + +static void +dummy_tr_WriteString (T_tr_UartId device, + char *buffer) +{ + /* + * No action. + */ +} + +/******************************************************************************* + * + * dummy_tr_EnterSleep + * + * Purpose: No action. + * + * Parameters: See SER_tr_EnterSleep. + * + * Return: 1 + * + ******************************************************************************/ + +static SYS_BOOL +dummy_tr_EnterSleep (T_tr_UartId device) +{ + return (1); +} + +/******************************************************************************* + * + * dummy_tr_WakeUp + * + * Purpose: No action. + * + * Parameters: See SER_tr_WakeUp. + * + * Return: none + * + ******************************************************************************/ + +static void +dummy_tr_WakeUp (T_tr_UartId device) +{ + /* + * No action. + */ +} + +/******************************************************************************* + * + * dummy_fd_Init + * + * Purpose: Sets the size of the circular buffer to the maximum value and the + * state of the driver to 'disabled'. + * + * Parameters: See SER_fd_Init. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_Init (T_fd_UartId device) +{ + #if (defined BTEMOBILE && (CHIPSET != 12)) + data_flow_parameters.bufSize = FD_MAX_BUFFER_SIZE; + #else + bufSize = FD_MAX_BUFFER_SIZE; + #endif + fd_driver_enabled = 0; + + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_Enable + * + * Purpose: Stores the state of the driver. + * + * Parameters: See SER_fd_Enable. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_Enable (T_fd_UartId device, + SYS_BOOL enable) +{ + fd_driver_enabled = enable; + + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_SetComPar + * + * Purpose: No action. + * + * Parameters: See SER_fd_SetComPar. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_SetComPar (T_fd_UartId device, + T_baudrate baudrate, + T_bitsPerCharacter bpc, + T_stopBits sb, + T_parity parity) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_SetBuffer + * + * Purpose: No action. + * + * Parameters: See SER_fd_SetBuffer. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_SetBuffer (T_fd_UartId device, + SYS_UWORD16 bufSize, + SYS_UWORD16 rxThreshold, + SYS_UWORD16 txThreshold) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_SetFlowCtrl + * + * Purpose: No action. + * + * Parameters: See SER_fd_SetFlowCtrl. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_SetFlowCtrl (T_fd_UartId device, + T_flowCtrlMode fcMode, + SYS_UWORD8 XON, + SYS_UWORD8 XOFF) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_SetEscape + * + * Purpose: No action. + * + * Parameters: See SER_fd_SetEscape. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_SetEscape (T_fd_UartId device, + SYS_UWORD8 escChar, + SYS_UWORD16 guardPeriod) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_InpAvail + * + * Purpose: No action. + * + * Parameters: See SER_fd_InpAvail. + * + * Return: The size of the circular buffer. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_InpAvail (T_fd_UartId device) +{ + #if (defined BTEMOBILE && (CHIPSET != 12)) + return (data_flow_parameters.bufSize); + #else + return (bufSize); + #endif +} + +/******************************************************************************* + * + * dummy_fd_OutpAvail + * + * Purpose: No action. + * + * Parameters: See SER_fd_OutpAvail. + * + * Return: The size of the circular buffer. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_OutpAvail (T_fd_UartId device) +{ + #if (defined BTEMOBILE && (CHIPSET != 12)) + return (data_flow_parameters.bufSize); + #else + return (bufSize); + #endif +} + +/******************************************************************************* + * + * dummy_fd_EnterSleep + * + * Purpose: No action. + * + * Parameters: See SER_tr_EnterSleep. + * + * Return: 1 + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_EnterSleep (T_fd_UartId device) +{ + return (1); +} + +/******************************************************************************* + * + * dummy_fd_WakeUp + * + * Purpose: No action. + * + * Parameters: See SER_tr_WakeUp. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_WakeUp (T_fd_UartId device) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_ReadData + * + * Purpose: No action. + * + * Parameters: See SER_fd_ReadData. + * + * Return: 0 if the suspend parameter is set to 'sm_noSuspend'. + * FD_SUSPENDED if the suspend parameter is set to 'sm_suspend'. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_ReadData (T_fd_UartId device, + T_suspendMode suspend, + void (readOutFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 nsource, + SYS_UWORD8 *source[], + SYS_UWORD16 size[], + SYS_UWORD32 state))) +{ + T_FDRET result; + + if (suspend == sm_noSuspend) + result = 0; + else + result = FD_SUSPENDED; + + return (result); +} + +/******************************************************************************* + * + * dummy_fd_WriteData + * + * Purpose: The user's function is called with: + * - cldFromIrq = 0 + * - ndest = 1 + * - dest[0] is a SYS_UWORD8 pointer on the beginning address of a local + * buffer + * - size[0] is set to data_flow_parameters.bufSize. + * + * Parameters: See SER_fd_WriteData. + * + * Return: The number of bytes written in the local buffer. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_WriteData (T_fd_UartId device, + T_suspendMode suspend, + void (writeInFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 ndest, + SYS_UWORD8 *dest[], + SYS_UWORD16 size[]))) +{ + T_reInstMode dummyInstall; + SYS_UWORD8 *destination[2]; + SYS_UWORD16 buffer_size[2]; + + destination[0] = &(fd_buffer[0]); + #if (defined BTEMOBILE && (CHIPSET != 12)) + buffer_size[0] = data_flow_parameters.bufSize; + #else + buffer_size[0] = bufSize; + #endif + + (*writeInFunc) (0, &dummyInstall, 1, &(destination[0]), &(buffer_size[0])); + + #if (defined BTEMOBILE && (CHIPSET != 12)) + return ((T_FDRET) (data_flow_parameters.bufSize - buffer_size[0])); + #else + return ((T_FDRET) (bufSize - buffer_size[0])); + #endif +} + +/******************************************************************************* + * + * dummy_fd_StopRec + * + * Purpose: No action. + * + * Parameters: See SER_fd_StopRec. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_StopRec (T_fd_UartId device) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_StartRec + * + * Purpose: No action. + * + * Parameters: See SER_fd_StartRec. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_StartRec (T_fd_UartId device) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_GetLineState + * + * Purpose: Sets the RXBLEV field to the bufSize value. + * + * Parameters: See SER_fd_GetLineState. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_GetLineState (T_fd_UartId device, + SYS_UWORD32 *state) +{ + #if (defined BTEMOBILE && (CHIPSET != 12)) + *state = data_flow_parameters.bufSize << RXBLEV; + #else + *state = bufSize << RXBLEV; + #endif + + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_SetLineState + * + * Purpose: No action. + * + * Parameters: See SER_fd_SetLineState. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_SetLineState (T_fd_UartId device, + SYS_UWORD32 state, + SYS_UWORD32 mask) +{ + return (FD_OK); +} + +/******************************************************************************* + * + * dummy_fd_CheckXEmpty + * + * Purpose: No action. + * + * Parameters: See SER_fd_CheckXEmpty. + * + * Return: FD_OK: Successful operation. + * + ******************************************************************************/ + +static T_FDRET +dummy_fd_CheckXEmpty (T_fd_UartId device) +{ + return (FD_OK); +} + +#ifdef BTEMOBILE +/******************************************************************************* + * + * dummy_bt_Init + * + * Purpose: No action. + * + * Parameters: See SER_bt_Init. + * + * Return: HCI_OK: Successful operation. + * + ******************************************************************************/ + +static T_HCI_RET +dummy_bt_Init (T_bt_UartId uart_device) +{ + return (HCI_OK); +} + +/******************************************************************************* + * + * dummy_bt_Start + * + * Purpose: No action. + * + * Parameters: See SER_bt_Start. + * + * Return: HCI_OK: Successful operation. + * + ******************************************************************************/ + +static T_HCI_RET +dummy_bt_Start (void) +{ + return (HCI_OK); +} + +/******************************************************************************* + * + * dummy_bt_Stop + * + * Purpose: No action. + * + * Parameters: See SER_bt_Stop. + * + * Return: HCI_OK: Successful operation. + * + ******************************************************************************/ + +static T_HCI_RET +dummy_bt_Stop (void) +{ + return (HCI_OK); +} + +/******************************************************************************* + * + * dummy_bt_Kill + * + * Purpose: No action. + * + * Parameters: See SER_bt_Kill. + * + * Return: HCI_OK: Successful operation. + * + ******************************************************************************/ + +static T_HCI_RET +dummy_bt_Kill (void) +{ + return (HCI_OK); +} + +/******************************************************************************* + * + * dummy_bt_SetBaudrate + * + * Purpose: No action. + * + * Parameters: See SER_bt_SetBaudrate. + * + * Return: HCI_OK: Successful operation. + * + ******************************************************************************/ + +static T_HCI_RET +dummy_bt_SetBaudrate (UINT8 baudrate) +{ + return (HCI_OK); +} + +/******************************************************************************* + * + * dummy_bt_TransmitPacket + * + * Purpose: No action. + * + * Parameters: See SER_bt_TransmitPacket. + * + * Return: HCI_OK: Successful operation. + * + ******************************************************************************/ + +static T_HCI_RET dummy_bt_TransmitPacket (void *uart_tx_buffer) + +{ + return (HCI_OK); +} + +/******************************************************************************* + * + * dummy_bt_EnterSleep + * + * Purpose: No action. + * + * Parameters: See SER_bt_EnterSleep. + * + * Return: TRUE. + * + ******************************************************************************/ + +static SYS_BOOL +dummy_bt_EnterSleep (void) +{ + return (TRUE); +} + +/******************************************************************************* + * + * dummy_bt_WakeUp + * + * Purpose: No action. + * + * Parameters: See SER_bt_WakeUp + * + * Return: HCI_OK: none + * + ******************************************************************************/ + +static void +dummy_bt_WakeUp (void) +{ + /* + * No action. + */ +} + +#endif /* BTEMOBILE */ + +/******************************************************************************* + * + * analyze_uart_sleep_timer_expiration + * + * Purpose : The timer has just expired. If requested, UARTs can again be set + * up to enter Deep Sleep. + * + * Arguments: In : id: parameter not used. + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +static VOID +analyze_uart_sleep_timer_expiration (UNSIGNED id) +{ + /* + * Timer has expired. + * UARTs can again be set up for Deep Sleep. + */ + + (void) NU_Control_Timer (&uart_sleep_timer, + NU_DISABLE_TIMER); + + uart_sleep_timer_enabled = 0; +} + +/******************************************************************************* + * + * start_uart_sleep_timer + * + * Purpose : Starts the sleep timer once UARTs have been waked-up by an + * interrupt or if new incoming characters have been received. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +static void +start_uart_sleep_timer (void) +{ + /* + * UART sleep timer is started. + * UARTs can't no more be set up for Deep Sleep until the timer expires. + */ + + (void) NU_Reset_Timer (&uart_sleep_timer, + &analyze_uart_sleep_timer_expiration, + WAKE_UP_TIME_IN_TDMA, + 0, /* The timer expires once. */ + NU_DISABLE_TIMER); + + (void) NU_Control_Timer (&uart_sleep_timer, + NU_ENABLE_TIMER); +} + +/******************************************************************************* + * + * set_flow_functions + * + * Purpose: Initializes a serial data flow functions set with the set of + * functions of the selected device. + * + * Parameters: In : flow : index of the serial data flow + * serial_driver: allows knowing which set of functions must + * be selected + * Out: none + * + * Return: none + * + ******************************************************************************/ + +static void +set_flow_functions (int flow, + T_SerialDriver serial_driver) +{ + + switch (serial_driver) { + + case UART_MODEM_FAX_DATA: + + fd_functions = &uart_modem_fax_data; + int_uart[fd_functions->device].device_used = 1; + int_uart[fd_functions->device].flow_type = FAX_DATA_FLOW; + int_uart[fd_functions->device].flow_id = flow; + int_uart[fd_functions->device].interrupt_handler = + UAF_InterruptHandler; + break; + + case DUMMY_FAX_DATA: + + fd_functions = &dummy_fax_data; + break; + + + case UART_IRDA_TRACE: + case UART_MODEM_TRACE: + #if (CHIPSET == 12) + case UART_MODEM2_TRACE: + #endif + + if (serial_driver == UART_IRDA_TRACE) + tr_functions[flow] = &uart_irda_trace; + else { + #if (CHIPSET == 12) + if (serial_driver == UART_MODEM2_TRACE) + tr_functions[flow] = &uart_modem2_trace; + else + #endif + tr_functions[flow] = &uart_modem_trace; + } + + int_uart[tr_functions[flow]->device].device_used = 1; + int_uart[tr_functions[flow]->device].flow_type = TRACE_FLOW; + int_uart[tr_functions[flow]->device].flow_id = flow; + int_uart[tr_functions[flow]->device].interrupt_handler = + UA_InterruptHandler; + break; + + case DUMMY_TRACE: + + tr_functions[flow] = &dummy_trace; + break; + + case DUMMY_BT_HCI: + + /* + * if serial_driver = DUMMY_BT_HCI & if BTEMOBILE is not defined + * no action is performed. + */ + +#ifdef BTEMOBILE + bt_functions = &dummy_bt_hci; + break; + + case UART_IRDA_BT_HCI: + case UART_MODEM_BT_HCI: + #if (CHIPSET == 12) + case UART_MODEM2_BT_HCI: + #endif + + if (serial_driver == UART_IRDA_BT_HCI) + bt_functions = &uart_irda_bt_hci; + else { + #if (CHIPSET == 12) + if (serial_driver == UART_MODEM2_BT_HCI) + bt_functions = &uart_modem2_bt_hci; + else + #endif + bt_functions = &uart_modem_bt_hci; + } + + int_uart[bt_functions->device].device_used = 1; + int_uart[bt_functions->device].flow_type = BLUETOOTH_HCI_FLOW; + int_uart[bt_functions->device].flow_id = flow; + int_uart[bt_functions->device].interrupt_handler = + hciu_interrupt_handler; +#endif /* BTEMOBILE */ + break; + } +} + +/******************************************************************************* + * + * SER_InitSerialConfig + * + * Purpose: The parameter serial_info allows knowing all serial information + * necessary to set up the serial configuration of an application. + * From this information, the function is able to determine if the + * current serial configuration read out from the flash memory is + * valid. If it does not correspond to an allowed configuration, the + * default configuration is selected. This function must be called at + * the application's initialization, but never after. + * + * Parameters: In : serial_info: application serial information like the default + * configuration and all allowed configurations. + * Out: none + * + * Return: none + * + ******************************************************************************/ + +void +SER_InitSerialConfig (T_AppliSerialInfo *serial_info) +{ + int uart_id; + int flow; + SYS_UWORD16 serial_driver; + SYS_UWORD16 *allowed_config; + SYS_UWORD8 nb_allowed_config; + SYS_BOOL valid_config_selected; + SYS_BOOL uart_used; + SYS_BOOL uart_used_for_trace; + SYS_UWORD16 current_config; + SYS_UWORD16 *pt_current_config = &(current_config); + + /* + * Basic UARTs initializations. + */ + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + int_uart[uart_id].base_address = uart_base_address[uart_id]; + int_uart[uart_id].device_used = 0; + int_uart[uart_id].deep_sleep_set_up = 0; + } + +#if ((CHIPSET == 2) || (CHIPSET == 3)) + uart_spurious_interrupts = 0; +#elif ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) + uart_modem_spurious_interrupts = 0; + uart_irda_spurious_interrupts = 0; +#endif +#if (CHIPSET == 12) + uart_modem2_spurious_interrupts = 0; +#endif + uart_sleep_timer_enabled = 0; + + /* + * Compute the current serial configuration. + */ + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + switch (ser_cfg_info[uart_id]) { + + case G23_PANEL: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_PROTOCOL_STACK))); + break; + + case RIVIERA_TRACE_MUX: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_LAYER_1))); + break; + + case FD_AT_COMMAND: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_FAX_DATA))); + break; + + case BLUETOOTH_HCI: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_BLUETOOTH_HCI))); + break; + + case DUMMY: + break; + } + } + + current_config = serial_cfg; + valid_config_selected = 0; + nb_allowed_config = serial_info->num_config; + + /* + * Checks if the current serial config is one of the allowed. + */ + + while ((nb_allowed_config > 0) && !valid_config_selected) { + + nb_allowed_config--; + allowed_config = (SYS_UWORD16 *) + &(serial_info->allowed_config[nb_allowed_config]); + + if (*pt_current_config == *allowed_config) + valid_config_selected = 1; + } + + /* + * If not, the default configuration is selected. + */ + + if (!valid_config_selected) { + + pt_current_config = (SYS_UWORD16 *)&(serial_info->default_config); + + #if (defined BTEMOBILE && (CHIPSET != 12)) + /* + * Setup the global variable accordingly. + * The following default value are identical to the ones defined at + * the application initialization in init.c. + */ + + #ifdef BT_UART_USED_MODEM + memcpy (ser_cfg_info, "RB", NUMBER_OF_TR_UART); + #else + memcpy (ser_cfg_info, "BR", NUMBER_OF_TR_UART); + #endif + #endif + } + + /* + * The serial data flow functions set is initialized. + */ + + flow = 0; + while (flow < SER_MAX_NUMBER_OF_FLOWS) { + + serial_driver = (T_SerialDriver) + (((*pt_current_config) >> (12 - flow * 4)) & 0x000F); + + set_flow_functions (flow, serial_driver); + flow++; + } + + /* + * Checks if both UARTs are used. + * If not, performs minimum initialization including Sleep Mode. + * Checks also if at least one UART is used by a Trace flow. + * If so, create a HISR in order to reset and restart the sleep timer + * in case of incoming characters. + */ + + uart_used = 0; + uart_used_for_trace = 0; + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + if (!(int_uart[uart_id].device_used)) + initialize_uart_sleep (uart_id); + + else { /* if (int_uart[uart_id].device_used) */ + + uart_used = 1; /* At least one UART is used */ + + if (int_uart[uart_id].flow_type == TRACE_FLOW) { + + /* At least one UART used by a Trace flow */ + uart_used_for_trace = 1; + } + } + } + + /* + * If at least one uart is used, create a timer to figure out if the system + * can enter deep sleep mode regarding the UARTs. + */ + + if (uart_used) { + + (void) NU_Create_Timer ( + &uart_sleep_timer, + "Sleep", + &analyze_uart_sleep_timer_expiration, + 0, /* Parameter supplied to the routine: not used. */ + WAKE_UP_TIME_IN_TDMA, + 0, /* The timer expires once. */ + NU_DISABLE_TIMER); + + /* + * If at least one uart is used by a Trace flow, create a HISR to reset + * and restart the sleep timer. + */ + + if (uart_used_for_trace) { + + /* + * The stack is entirely filled with the pattern 0xFE. + */ + + memset (&(timer_hisr_stack[0]), 0xFE, TIMER_HISR_STACK_SIZE); + + /* + * The HISR entry function is the same function than the one called + * by the Rx HISR of the UARTFAX, since the only aim is to reset + * and restart the sleep timer in case of incoming characters on + * the Trace UART. + */ + + (void) NU_Create_HISR ( + &timer_hisr_ctrl_block, + "Tim_HISR", + SER_restart_uart_sleep_timer, + TIMER_HISR_PRIORITY, + &(timer_hisr_stack[0]), + TIMER_HISR_STACK_SIZE); + } + } +} + + +/******************************************************************************* + * + * SER_WriteConfig + * + * Purpose: TBD + * + * Parameters: In : new_config: TBD + * write_to_flash: TBD + * Out: none + * + * Return: 0 (FALSE) : In case of error while trying to write file in FFS + * >= 1 (TRUE) : Successful operation. + * + ******************************************************************************/ + +SYS_BOOL +SER_WriteConfig (char *new_config, + SYS_BOOL write_to_flash) +{ +#if (defined BTEMOBILE && (CHIPSET != 12)) + int uart_id; + SYS_BOOL status = 1; + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) + ser_new_cfg[uart_id] = *new_config++; + + /* + * Write in flash the new serial configuration if requested. + */ + + if (write_to_flash) { + if (ffs_fwrite (uart_config_file, + ser_new_cfg, + NUMBER_OF_TR_UART) < EFFS_OK) { + status = 0; + } + } + + return (status); +#else + /* + * Real Dynamic Switch is only available with Bluetooth AND all chips but + * Calypso+. + */ + + return (1); +#endif +} + +/******************************************************************************* + * + * SER_ImmediateSwitch + * + * Purpose: TBD + * + * Parameters: In : none + * Out: none + * + * Return: 0 (FALSE) : In case of error. + * >= 1 (TRUE) : Successful operation. + * + ******************************************************************************/ + +SYS_BOOL +SER_ImmediateSwitch (void) +{ +#if (defined BTEMOBILE && (CHIPSET != 12)) + int uart_id; + SYS_BOOL valid_config = 0; + T_AppliSerialInfo *serial_info = &appli_ser_cfg_info; + SYS_UWORD8 nb_allowed_config = serial_info->num_config; + SYS_UWORD16 *allowed_config; + int flow; + T_SerialDriver serial_flows[SER_MAX_NUMBER_OF_FLOWS]; + T_tr_UartId uart_nb; + + /* + * First check if the new serial configuration is actually different from + * the previous one. A return is used to simplify the code. + */ + + if (!memcmp (ser_new_cfg, + ser_cfg_info, + NUMBER_OF_TR_UART)) + return (1); /* new config and old config are identical => nothing to do */ + + /* + * Then check if the new serial config is valid or not. + * At that point, we assume that a serial config is valid if and only if the + * Bluetooth HCI flow is still enabled and still uses the same UART. + * Reset the current serial config, and compute the new one. + */ + + serial_cfg = 0x0048; /* All dummies */ + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + switch (ser_new_cfg[uart_id]) { + + case G23_PANEL: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_PROTOCOL_STACK))); + break; + + case RIVIERA_TRACE_MUX: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_LAYER_1))); + break; + + case FD_AT_COMMAND: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_FAX_DATA))); + break; + + case BLUETOOTH_HCI: + serial_cfg = serial_cfg + + ((uart_id + 1) << (12 - (4 * SER_BLUETOOTH_HCI))); + + /* + * Check if the Bluetooth HCI flow is enabled on the same UART. + */ + + if (ser_cfg_info[uart_id] == BLUETOOTH_HCI) + valid_config = 1; + + break; + + case DUMMY: + break; + } + } + + if (!valid_config) + return (0); /* Bluetooth HCI flow not enabled in the new serial config, + or enabled but using a different UART. */ + + /* + * Finally check if the new serial config is allowed by the application. + */ + + valid_config = 0; + while ((nb_allowed_config > 0) && !valid_config) { + + nb_allowed_config--; + allowed_config = (SYS_UWORD16 *) + &(serial_info->allowed_config[nb_allowed_config]); + + if (serial_cfg == *allowed_config) + valid_config = 1; + } + + if (!valid_config) /* the new config is not allowed by the application */ + return (0); + + /* + * From now on, Dynamic Switch is being processed. + */ + + dynamic_switch = 1; + + /* + * Disable UART interrupts until new serial config setup is complete. + */ + + #if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11)) + IQ_Mask (IQ_UART_IRDA_IT); + #endif + IQ_Mask (IQ_UART_IT); + + /* + * Reset UARTs set-up. + */ + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + int_uart[uart_id].device_used = 0; + int_uart[uart_id].deep_sleep_set_up = 0; + int_uart[uart_id].interrupt_handler = NULL; + } + + /* + * All function pointers are set to dummy functions. + */ + + rvf_disable (21); /* beginning of the critical section */ + + for (flow = 0; flow < SER_MAX_NUMBER_OF_FLOWS; flow++) + tr_functions[flow] = &dummy_trace; + + fd_functions = &dummy_fax_data; + bt_functions = &dummy_bt_hci; + + rvf_enable (); /* end of the critical section */ + + /* + * Calls the Exit function of the UARTFAX driver if it was previously used. + */ + + if (uart_fd_initialized) { + + /* + * UART IrDA can't be used for F&D/AT-Cmd flow => UART Modem was used + * by the F&D/AT-Cmd flow. + */ + + if (UAF_Exit (UAF_UART_1) == FD_OK) { + uart_fd_initialized = 0; + } + } + else { + + /* + * AT that point, since the Bluetooth HCI flow already uses one UART, + * and since the second UART was not used by the F&D/AT-Cmd flow, we + * assume it was used by a Trace flow. Therefore, the HISR used to + * reset and restart the sleep timer is deleted. + */ + + (void) NU_Delete_HISR (&timer_hisr_ctrl_block); + } + + /* + * Initialization of the new flows (Only AT-Cmd/F&D or Riviera/Layer1 Trace) + * and their associated UARTs HW (Irda or Modem) & SW (Trace or Fax&Data). + */ + + for (flow = 0; flow < SER_MAX_NUMBER_OF_FLOWS; flow++) { + + serial_flows[flow] = (T_SerialDriver) + ((serial_cfg >> (12 - flow * 4)) & 0x000F); + + switch (serial_flows[flow]) { + + /* + * For Riviera/Layer1 Trace flow, default baudrate is 115200 bps + * and callback function is defined in rvt_def_i.h. + */ + + case UART_IRDA_TRACE: + case UART_MODEM_TRACE: + + if (serial_flows[flow] == UART_IRDA_TRACE) + uart_nb = UA_UART_0; + else /* if (serial_flows[flow] == UART_MODEM_TRACE) */ + uart_nb = UA_UART_1; + + if (flow == SER_LAYER_1) { + + UA_Init (uart_nb, + TR_BAUD_CONFIG, + rvt_activate_RX_HISR); + + /* + * Create the HISR used to reset and restart the sleep + * timer in case of incoming characters on the Trace flow. + * The stack is entirely filled with the pattern 0xFE. + */ + + memset (&(timer_hisr_stack[0]), + 0xFE, + TIMER_HISR_STACK_SIZE); + + (void) NU_Create_HISR ( + &timer_hisr_ctrl_block, + "Tim_HISR", + SER_restart_uart_sleep_timer, + TIMER_HISR_PRIORITY, + &(timer_hisr_stack[0]), + TIMER_HISR_STACK_SIZE); + } + else /* Other Trace flows are disabled */ + initialize_uart_sleep (uart_nb); + break; + + /* + * For At-Cmd/F&D flow, functions are called in the appropriate + * order with the saved parameters. + * This has been figured out from the G23 initialization. + */ + + case UART_MODEM_FAX_DATA: + + /* Global Initialization */ + if (UAF_Init (UAF_UART_1) == FD_OK) { + uart_fd_initialized = 1; + } + + /* Disable the driver */ + UAF_Enable (UAF_UART_1, + 0); + + /* Set the SW Buffers parameters */ + UAF_SetBuffer (UAF_UART_1, + data_flow_parameters.bufSize, + data_flow_parameters.rxThreshold, + data_flow_parameters.txThreshold); + + /* Set the Escape Sequence parameters (1st call) */ + UAF_SetEscape (UAF_UART_1, + data_flow_parameters.escChar[0], + data_flow_parameters.guardPeriod[0]); + + /* Set the Communication parameters (1st call) */ + UAF_SetComPar (UAF_UART_1, + data_flow_parameters.baudrate[0], + data_flow_parameters.bpc[0], + data_flow_parameters.sb[0], + data_flow_parameters.parity[0]); + + /* Set the Flow Control parameters (1st call) */ + UAF_SetFlowCtrl (UAF_UART_1, + data_flow_parameters.fcMode[0], + data_flow_parameters.XON[0], + data_flow_parameters.XOFF[0]); + + /* Set the Communication parameters (2nd call) */ + UAF_SetComPar (UAF_UART_1, + data_flow_parameters.baudrate[1], + data_flow_parameters.bpc[1], + data_flow_parameters.sb[1], + data_flow_parameters.parity[1]); + + /* Set the Flow Control parameters (2nd call) */ + UAF_SetFlowCtrl (UAF_UART_1, + data_flow_parameters.fcMode[1], + data_flow_parameters.XON[1], + data_flow_parameters.XOFF[1]); + + /* Set the Escape Sequence parameters (2nd call) */ + UAF_SetEscape (UAF_UART_1, + data_flow_parameters.escChar[1], + data_flow_parameters.guardPeriod[1]); + + /* Enable the driver */ + UAF_Enable (UAF_UART_1, + 1); + + /* Get the number of input bytes available */ + UAF_InpAvail (UAF_UART_1); + + /* Set the readOutFunc and the suspend mode */ + UAF_ReadData (UAF_UART_1, + data_flow_parameters.suspend_rd, + data_flow_parameters.readOutFunc); + + /* Get the number of output bytes available (1st call) */ + UAF_OutpAvail (UAF_UART_1); + + /* Set the states of the V.24 status lines (1st call) */ + UAF_SetLineState (UAF_UART_1, + data_flow_parameters.state[0], + data_flow_parameters.mask[0]); + + /* Set the states of the V.24 status lines (2nd call) */ + UAF_SetLineState (UAF_UART_1, + data_flow_parameters.state[1], + data_flow_parameters.mask[1]); + + /* Set the states of the V.24 status lines (3rd call) */ + UAF_SetLineState (UAF_UART_1, + data_flow_parameters.state[2], + data_flow_parameters.mask[2]); + + /* Set the states of the V.24 status lines (4th call) */ + UAF_SetLineState (UAF_UART_1, + data_flow_parameters.state[3], + data_flow_parameters.mask[3]); + + /* Set the writeInFunc and the suspend mode */ + UAF_WriteData (UAF_UART_1, + data_flow_parameters.suspend_wr, + data_flow_parameters.writeInFunc); + + /* Get the number of output bytes available (2nd call) */ + UAF_OutpAvail (UAF_UART_1); + + break; + + case UART_IRDA_BT_HCI: + case UART_MODEM_BT_HCI: + /* + * Nothing to initialize for Bluetooth HCI flow since it does + * use the same UART. + */ + + case DUMMY_TRACE: + case DUMMY_FAX_DATA: + case DUMMY_BT_HCI: + /* + * Of course nothing to perform for Dummy flows. + */ + + break; + } + } + + /* + * All function pointers are set to the appropriate functions set. + */ + + for (flow = 0; flow < SER_MAX_NUMBER_OF_FLOWS; flow++){ + + /* + * For Dummy flows, pointers to dummy functions are already set. + */ + + if ((serial_flows[flow] != DUMMY_TRACE) && + (serial_flows[flow] != DUMMY_FAX_DATA) && + (serial_flows[flow] != DUMMY_BT_HCI)) { + + rvf_disable (21); /* beginning of the critical section */ + set_flow_functions (flow, serial_flows[flow]); + rvf_enable (); /* end of the critical section */ + } + } + + /* + * Dynamic Switch has been processed. + * The new serial config is actually stored. + */ + + dynamic_switch = 0; + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) + ser_cfg_info[uart_id] = ser_new_cfg[uart_id]; + + /* + * Re-enable UART interrupts. + */ + + #if ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11)) + IQ_Unmask (IQ_UART_IRDA_IT); + #endif + IQ_Unmask (IQ_UART_IT); + +#endif + /* + * Real Dynamic Switch is only available with Bluetooth AND all chips but + * Calypso+. + */ + + return (1); +} + +/******************************************************************************* + * + * All functions SER_tr_xxx and SER_fd_xxx call a function of the UART trace + * driver or the UART fax & data driver. + * All functions SER_bt_xxx call a function of the UART Bluetooth HCI driver. + * See the function call for parameters and return values. + * + ******************************************************************************/ + +void +SER_tr_Init (int serial_data_flow, + T_tr_Baudrate baudrate, + void (callback_function (void))) +{ + tr_functions[serial_data_flow]->tr_Init ( + tr_functions[serial_data_flow]->device, baudrate, callback_function); +} + +SYS_UWORD32 +SER_tr_ReadNChars (int serial_data_flow, + char *buffer, + SYS_UWORD32 chars_to_read) +{ + return (tr_functions[serial_data_flow]->tr_ReadNChars ( + tr_functions[serial_data_flow]->device, buffer, chars_to_read)); +} + +SYS_UWORD32 +SER_tr_ReadNBytes (int serial_data_flow, + char *buffer, + SYS_UWORD32 chars_to_read, + SYS_BOOL *eof_detected) +{ + return (tr_functions[serial_data_flow]->tr_ReadNBytes ( + tr_functions[serial_data_flow]->device, buffer, chars_to_read, eof_detected)); +} + +SYS_UWORD32 +SER_tr_WriteNChars (int serial_data_flow, + char *buffer, + SYS_UWORD32 chars_to_write) +{ + return (tr_functions[serial_data_flow]->tr_WriteNChars ( + tr_functions[serial_data_flow]->device, buffer, chars_to_write)); +} + +SYS_UWORD32 +SER_tr_EncapsulateNChars (int serial_data_flow, + char *buffer, + SYS_UWORD32 chars_to_write) +{ + return (tr_functions[serial_data_flow]->tr_EncapsulateNChars ( + tr_functions[serial_data_flow]->device, buffer, chars_to_write)); +} + +SYS_UWORD32 +SER_tr_WriteNBytes (int serial_data_flow, + SYS_UWORD8 *buffer, + SYS_UWORD32 chars_to_write) +{ + return (tr_functions[serial_data_flow]->tr_WriteNBytes ( + tr_functions[serial_data_flow]->device, buffer, chars_to_write)); +} + +void +SER_tr_WriteChar (int serial_data_flow, + char character) +{ + tr_functions[serial_data_flow]->tr_WriteChar ( + tr_functions[serial_data_flow]->device, character); +} + +void +SER_tr_WriteString (int serial_data_flow, + char *buffer) +{ + tr_functions[serial_data_flow]->tr_WriteString ( + tr_functions[serial_data_flow]->device, buffer); +} + +SYS_BOOL +SER_tr_EnterSleep (int serial_data_flow) +{ + return (tr_functions[serial_data_flow]->tr_EnterSleep ( + tr_functions[serial_data_flow]->device)); +} + +void +SER_tr_WakeUp (int serial_data_flow) +{ + tr_functions[serial_data_flow]->tr_WakeUp ( + tr_functions[serial_data_flow]->device); +} + +/* Dummy function for backward compatibility. */ +T_FDRET +SER_fd_Init (void) +{ + return (FD_OK); +} + +T_FDRET +SER_fd_Initialize (void) +{ + T_FDRET status; + + #if (defined BTEMOBILE && (CHIPSET != 12)) + data_flow_parameters.bufSize = FD_MAX_BUFFER_SIZE; + #else + bufSize = FD_MAX_BUFFER_SIZE; + #endif + status = fd_functions->fd_Initialize (fd_functions->device); + + #if (defined BTEMOBILE && (CHIPSET != 12)) + /* + * Check if the UARTFAX driver has actually been initialized. + */ + + if ((fd_functions->fd_Initialize == UAF_Init) && + (status = FD_OK)) { + + uart_fd_initialized = 1; + } + #endif + + return (status); +} + +T_FDRET +SER_fd_Enable (SYS_BOOL enable) +{ + return (fd_functions->fd_Enable (fd_functions->device, enable)); +} + +T_FDRET +SER_fd_SetComPar (T_baudrate baudrate, + T_bitsPerCharacter bpc, + T_stopBits sb, + T_parity parity) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_SetComPar < 2) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.baudrate[fd_UAF_SetComPar] = baudrate; + data_flow_parameters.bpc[fd_UAF_SetComPar] = bpc; + data_flow_parameters.sb[fd_UAF_SetComPar] = sb; + data_flow_parameters.parity[fd_UAF_SetComPar] = parity; + + /* + * Number of calls to SER_fd_SetComPar. + */ + + fd_UAF_SetComPar++; + } + #endif + + return (fd_functions->fd_SetComPar ( + fd_functions->device, baudrate, bpc, sb, parity)); +} + +T_FDRET +SER_fd_SetBuffer (SYS_UWORD16 bufSize, + SYS_UWORD16 rxThreshold, + SYS_UWORD16 txThreshold) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_SetBuffer < 1) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.bufSize = bufSize; + data_flow_parameters.rxThreshold = rxThreshold; + data_flow_parameters.txThreshold = txThreshold; + + /* + * Number of calls to SER_fd_SetBuffer. + */ + + fd_UAF_SetBuffer++; + } + #endif + + return (fd_functions->fd_SetBuffer ( + fd_functions->device, bufSize, rxThreshold, txThreshold)); +} + +T_FDRET +SER_fd_SetFlowCtrl (T_flowCtrlMode fcMode, + SYS_UWORD8 XON, + SYS_UWORD8 XOFF) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_SetFlowCtrl < 2) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.fcMode[fd_UAF_SetFlowCtrl] = fcMode; + data_flow_parameters.XON[fd_UAF_SetFlowCtrl] = XON; + data_flow_parameters.XOFF[fd_UAF_SetFlowCtrl] = XOFF; + + /* + * Number of calls to SER_fd_SetFlowCtrl. + */ + + fd_UAF_SetFlowCtrl++; + } + #endif + + return (fd_functions->fd_SetFlowCtrl ( + fd_functions->device, fcMode, XON, XOFF)); +} + +T_FDRET +SER_fd_SetEscape (char escChar, + SYS_UWORD16 guardPeriod) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_SetEscape < 2) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.escChar[fd_UAF_SetEscape] = escChar; + data_flow_parameters.guardPeriod[fd_UAF_SetEscape] = guardPeriod; + + /* + * Number of calls to SER_fd_SetEscape. + */ + + fd_UAF_SetEscape++; + } + #endif + + return (fd_functions->fd_SetEscape ( + fd_functions->device, escChar, guardPeriod)); +} + +T_FDRET +SER_fd_InpAvail (void) +{ + return (fd_functions->fd_InpAvail (fd_functions->device)); +} + +T_FDRET +SER_fd_OutpAvail (void) +{ + return (fd_functions->fd_OutpAvail (fd_functions->device)); +} + +T_FDRET +SER_fd_EnterSleep (void) +{ + return (fd_functions->fd_EnterSleep (fd_functions->device)); +} + +T_FDRET +SER_fd_WakeUp (void) +{ + return (fd_functions->fd_WakeUp (fd_functions->device)); +} + +T_FDRET +SER_fd_ReadData (T_suspendMode suspend, + void (readOutFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 nsource, + SYS_UWORD8 *source[], + SYS_UWORD16 size[], + SYS_UWORD32 state))) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_ReadData < 1) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.suspend_rd = suspend; + data_flow_parameters.readOutFunc = readOutFunc; + + /* + * Number of calls to SER_fd_ReadData. + */ + + fd_UAF_ReadData++; + } + #endif + + return (fd_functions->fd_ReadData ( + fd_functions->device, suspend, readOutFunc)); +} + +T_FDRET +SER_fd_WriteData (T_suspendMode suspend, + void (writeInFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 ndest, + SYS_UWORD8 *dest[], + SYS_UWORD16 size[]))) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_WriteData < 1) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.suspend_wr = suspend; + data_flow_parameters.writeInFunc = writeInFunc; + + /* + * Number of calls to SER_fd_WriteData. + */ + + fd_UAF_WriteData++; + } + #endif + + return (fd_functions->fd_WriteData ( + fd_functions->device, suspend, writeInFunc)); +} + +T_FDRET +SER_fd_StopRec (void) +{ + return (fd_functions->fd_StopRec (fd_functions->device)); +} + +T_FDRET +SER_fd_StartRec (void) +{ + return (fd_functions->fd_StartRec (fd_functions->device)); +} + +T_FDRET +SER_fd_GetLineState (SYS_UWORD32 *state) +{ + return (fd_functions->fd_GetLineState (fd_functions->device, state)); +} + +T_FDRET +SER_fd_SetLineState (SYS_UWORD32 state, + SYS_UWORD32 mask) +{ + + #if (defined BTEMOBILE && (CHIPSET != 12)) + if (fd_UAF_SetLineState < 4) { + + /* + * Stores the parameters in order to be able to retrieve them in case of + * Dynamic Sitch. + */ + + data_flow_parameters.state[fd_UAF_SetLineState] = state; + data_flow_parameters.mask[fd_UAF_SetLineState] = mask; + + /* + * Number of calls to SER_fd_SetLineState. + */ + + fd_UAF_SetLineState++; + } + #endif + + return (fd_functions->fd_SetLineState (fd_functions->device, state, mask)); +} + +T_FDRET +SER_fd_CheckXEmpty (void) +{ + return (fd_functions->fd_CheckXEmpty (fd_functions->device)); +} + +#ifdef BTEMOBILE +T_HCI_RET +SER_bt_Init (void) +{ + return (bt_functions->bt_Init (bt_functions->device)); +} + +T_HCI_RET +SER_bt_Start (void) +{ + return (bt_functions->bt_Start ()); +} + +T_HCI_RET +SER_bt_Stop (void) +{ + return (bt_functions->bt_Stop ()); +} + +T_HCI_RET +SER_bt_Kill (void) +{ + return (bt_functions->bt_Kill ()); +} + +T_HCI_RET +SER_bt_SetBaudrate (UINT8 baudrate) +{ + return (bt_functions->bt_SetBaudrate (baudrate)); +} + +T_HCI_RET SER_bt_TransmitPacket (void *uart_tx_buffer) +{ + return (bt_functions->bt_TransmitPacket (uart_tx_buffer)); +} + +SYS_BOOL SER_bt_EnterSleep (void) +{ + return (bt_functions->bt_EnterSleep()); +} + +void SER_bt_WakeUp (void) +{ + bt_functions->bt_WakeUp(); +} +#endif /* BTEMOBILE */ + +/******************************************************************************* + * + * SER_UartSleepStatus + * + * Purpose: This function checks if both UARTs are ready to enter Deep Sleep. + * + * Parameters: In : none + * Out: none + * + * Return: 0 : Deep Sleep is not possible. + * >= 1 : Deep Sleep is possible. + * + ******************************************************************************/ + +SYS_BOOL +SER_UartSleepStatus (void) +{ + t_uart *uart; + int uart_id; + SYS_BOOL status; + + /* + * Check first if the sleep timer is active or if a Dynamic Switch is + * being processed. A return is used to simplify the code. + */ + +#if (defined BTEMOBILE && (CHIPSET != 12)) + if (uart_sleep_timer_enabled || dynamic_switch) +#else + if (uart_sleep_timer_enabled) +#endif + return (0); + + /* + * Check if both UARTs are ready to enter Deep Sleep. + */ + + status = 1; + uart_id = 0; + while ((uart_id < NUMBER_OF_TR_UART) && + (status)) { + + uart = &(int_uart[uart_id]); + + /* + * Check if the specified UART is actually used. + */ + + if (uart->device_used) { + + /* + * Check if the specified UART is used by a Trace or + * by a Fax & Data flow. + */ + + if (uart->flow_type == TRACE_FLOW) + status = SER_tr_EnterSleep (uart->flow_id); + + else + if (uart->flow_type == FAX_DATA_FLOW) + status = (SYS_BOOL) SER_fd_EnterSleep (); +#ifdef BTEMOBILE + else + if (uart->flow_type == BLUETOOTH_HCI_FLOW) + status = SER_bt_EnterSleep(); +#endif + else + status = 0; + + if (status) { + + /* + * The specified UART is now set up for Deep Sleep. + */ + + uart->deep_sleep_set_up = 1; + + } + } + + uart_id++; + } + + /* + * Check if Deep Sleep is finally possible. + * If not revert eventual Deep Sleep settings. + */ + + if (!status) { + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + uart = &(int_uart[uart_id]); + + /* + * If the specified used UART has already been set up for + * Deep Sleep, revert these settings. + */ + + if ((uart->device_used) && + (uart->deep_sleep_set_up)) { + + /* + * Check if the specified UART is used by a Trace or + * by a Fax & Data flow. + * Bluetooth HCI can not yet handled Deep Sleep Mode. + */ + + if (uart->flow_type == TRACE_FLOW) + SER_tr_WakeUp (uart->flow_id); + + else + if (uart->flow_type == FAX_DATA_FLOW) + SER_fd_WakeUp (); +#ifdef BTEMOBILE + else + if (uart->flow_type == BLUETOOTH_HCI_FLOW) + SER_bt_WakeUp (); +#endif + uart->deep_sleep_set_up = 0; + + } + } + } + + return (status); +} + + +/******************************************************************************* + * + * SER_WakeUpUarts + * + * Purpose: This function wakes up used UARTs after Deep Sleep. + * + * Parameters: In : none + * Out: none + * + * Return: none + * + ******************************************************************************/ + +void +SER_WakeUpUarts (void) +{ + t_uart *uart; + int uart_id; + + if (uart_sleep_timer_enabled) + start_uart_sleep_timer (); + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + uart = &(int_uart[uart_id]); + + /* + * Check if the specified UART is actually used, and has not yet + * been waked up. + */ + + if ((uart->device_used) && + (uart->deep_sleep_set_up)) { + + /* + * Check if the specified UART is used by a Trace or + * by a Fax & Data flow. + * Bluetooth HCI can not yet handled Deep Sleep Mode. + */ + + if (uart->flow_type == TRACE_FLOW) + SER_tr_WakeUp (uart->flow_id); + + else + if (uart->flow_type == FAX_DATA_FLOW) + SER_fd_WakeUp (); +#ifdef BTEMOBILE + else + if (uart->flow_type == BLUETOOTH_HCI_FLOW) + SER_bt_WakeUp (); +#endif + /* + * The specified UART is no more set up for Deep Sleep. + */ + + uart->deep_sleep_set_up = 0; + + } + } +} + + +/******************************************************************************* + * + * SER_restart_uart_sleep_timer + * + * Purpose : Resets and restarts the sleep timer each time some characters are + * received. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +void +SER_restart_uart_sleep_timer (void) +{ + /* + * First disable the timer. + */ + + (void) NU_Control_Timer (&uart_sleep_timer, + NU_DISABLE_TIMER); + + /* + * Then start again this timer for a new period. + */ + + start_uart_sleep_timer (); +} + + +/******************************************************************************* + * + * SER_activate_timer_hisr + * + * Purpose : Activates the timer HISR to reset and restart the sleep timer + * each time some characters are received. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +void +SER_activate_timer_hisr (void) +{ + (void) NU_Activate_HISR (&timer_hisr_ctrl_block); +} + + +#if ((CHIPSET == 2) || (CHIPSET == 3)) + +/******************************************************************************* + * + * SER_uart_handler + * + * Purpose : UART interrupt handler. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +void +SER_uart_handler (void) +{ + SYS_UWORD8 interrupt_status; + t_uart *uart; + int uart_id; + SYS_BOOL it_identified; + + it_identified = 0; + + /* + * Check first for a wake-up interrupt. + */ + + uart_id = 0; + while ((uart_id < NUMBER_OF_TR_UART) && + (!it_identified)) { + + uart = &(int_uart[uart_id]); + interrupt_status = READ_UART_REGISTER (uart, SSR); + + if (interrupt_status & RX_CTS_WAKE_UP_STS) { /* Wake-up IT has occurred */ + + it_identified = 1; + uart_sleep_timer_enabled = 1; + DISABLE_WAKE_UP_INTERRUPT (uart); + } + + uart_id++; + } + + /* + * If no wake-up interrupt has been detected, check then systematically + * both UARTs for other interrupt causes. + */ + + if (!it_identified) { + + for (uart_id = 0; uart_id < NUMBER_OF_TR_UART; uart_id++) { + + uart = &(int_uart[uart_id]); + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + + if (!(interrupt_status & IT_NOT_PENDING)) { + + it_identified = 1; + (*(uart->interrupt_handler)) (uart_id, interrupt_status); + + } else { + + if ((uart_id == UA_UART_1) && (!it_identified)) + uart_spurious_interrupts++; + } + } + } +} + +#elif ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) + +/******************************************************************************* + * + * SER_uart_modem_handler + * + * Purpose : UART MODEM interrupt handler. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +void +SER_uart_modem_handler (void) +{ + SYS_UWORD8 interrupt_status; + t_uart *uart; + SYS_BOOL it_wakeup_identified; + + it_wakeup_identified = 0; + uart = &(int_uart[UA_UART_1]); + + /* + * Check first for a wake-up interrupt. + */ + + interrupt_status = READ_UART_REGISTER (uart, SSR); + + if (interrupt_status & RX_CTS_WAKE_UP_STS) { /* Wake-up IT has occurred */ + + it_wakeup_identified = 1; + uart_sleep_timer_enabled = 1; +#ifdef BTEMOBILE + if (uart->flow_type == BLUETOOTH_HCI_FLOW) + { + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + (*(uart->interrupt_handler)) (UA_UART_1, interrupt_status); + } +#endif /* BTEMOBILE */ + DISABLE_WAKE_UP_INTERRUPT (uart); + } + + /* + * If no wake-up interrupt has been detected, check UART for other + * interrupt causes. + */ + + if (!it_wakeup_identified) { + + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + + if (!(interrupt_status & IT_NOT_PENDING)) + (*(uart->interrupt_handler)) (UA_UART_1, interrupt_status); + + else + uart_modem_spurious_interrupts++; + } +} + + +/******************************************************************************* + * + * SER_uart_irda_handler + * + * Purpose : UART IrDA interrupt handler. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + +void +SER_uart_irda_handler (void) +{ + SYS_UWORD8 interrupt_status; + t_uart *uart; + SYS_BOOL it_wakeup_identified; + + it_wakeup_identified = 0; + uart = &(int_uart[UA_UART_0]); + + /* + * Check first for a wake-up interrupt. + */ + + interrupt_status = READ_UART_REGISTER (uart, SSR); + + if (interrupt_status & RX_CTS_WAKE_UP_STS) { /* Wake-up IT has occurred */ + + it_wakeup_identified = 1; + uart_sleep_timer_enabled = 1; +#ifdef BTEMOBILE + if (uart->flow_type == BLUETOOTH_HCI_FLOW) + { + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + (*(uart->interrupt_handler)) (UA_UART_0, interrupt_status); + } +#endif /* BTEMOBILE */ + DISABLE_WAKE_UP_INTERRUPT (uart); + } + + /* + * If no wake-up interrupt has been detected, check UART for other + * interrupt causes. + */ + + if (!it_wakeup_identified) { + + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + + if (!(interrupt_status & IT_NOT_PENDING)) + (*(uart->interrupt_handler)) (UA_UART_0, interrupt_status); + + else + uart_irda_spurious_interrupts++; + } +} + +#endif + +#if (CHIPSET == 12) + /******************************************************************************* + * + * SER_uart_modem2_handler + * + * Purpose : UART IrDA interrupt handler. + * + * Arguments: In : none + * Out: none + * + * Returns : none + * + ******************************************************************************/ + + void + SER_uart_modem2_handler (void) + { + SYS_UWORD8 interrupt_status; + t_uart *uart; + SYS_BOOL it_wakeup_identified; + + it_wakeup_identified = 0; + uart = &(int_uart[UA_UART_2]); + + /* + * Check first for a wake-up interrupt. + */ + + interrupt_status = READ_UART_REGISTER (uart, SSR); + + if (interrupt_status & RX_CTS_WAKE_UP_STS) { /* Wake-up IT has occurred */ + + it_wakeup_identified = 1; + uart_sleep_timer_enabled = 1; +#ifdef BTEMOBILE + if (uart->flow_type == BLUETOOTH_HCI_FLOW) + { + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + (*(uart->interrupt_handler)) (UA_UART_2, interrupt_status); + } +#endif /* BTEMOBILE */ + DISABLE_WAKE_UP_INTERRUPT (uart); + } + + /* + * If no wake-up interrupt has been detected, check UART for other + * interrupt causes. + */ + + if (!it_wakeup_identified) { + + interrupt_status = READ_UART_REGISTER (uart, IIR) & IIR_BITS_USED; + + if (!(interrupt_status & IT_NOT_PENDING)) + (*(uart->interrupt_handler)) (UA_UART_2, interrupt_status); + + else + uart_modem2_spurious_interrupts++; + } + } + +#endif + +/* + * Temporary functions. + */ + +void +UT_Init (int device_id, + int baudrate, + void (callback_function (void))) +{ + SER_tr_Init (SER_PROTOCOL_STACK, baudrate, callback_function); +} + +SYS_UWORD32 +UT_ReadNChars (int device_id, + char *buffer, + SYS_UWORD32 chars_to_read) +{ + return (SER_tr_ReadNChars (SER_PROTOCOL_STACK, buffer, chars_to_read)); +} + +SYS_UWORD32 +UT_WriteNChars (int device_id, + char *buffer, + SYS_UWORD32 chars_to_write) +{ + return (SER_tr_WriteNChars (SER_PROTOCOL_STACK, buffer, chars_to_write)); +} + +void +UT_WriteChar (int device_id, + char character) +{ + SER_tr_WriteChar (SER_PROTOCOL_STACK, character); +} + +void +UT_WriteString (int device_id, + char *buffer) +{ + SER_tr_WriteString (SER_PROTOCOL_STACK, buffer); +} + +short +UF_Init (SYS_UWORD8 deviceNo) +{ + return (SER_fd_Init ()); +} + +short +UF_Enable (SYS_UWORD8 deviceNo, + SYS_BOOL enable) +{ + return (SER_fd_Enable (enable)); +} + +short +UF_SetComPar (SYS_UWORD8 deviceNo, + T_baudrate baudrate, + T_bitsPerCharacter bpc, + T_stopBits sb, + T_parity parity) +{ + return (SER_fd_SetComPar (baudrate, + bpc, + sb, + parity)); +} + +short +UF_SetBuffer (SYS_UWORD8 deviceNo, + SYS_UWORD16 bufSize, + SYS_UWORD16 rxThreshold, + SYS_UWORD16 txThreshold) +{ + return (SER_fd_SetBuffer (bufSize, rxThreshold, txThreshold)); +} + +short +UF_SetFlowCtrl (SYS_UWORD8 deviceNo, + T_flowCtrlMode fcMode, + SYS_UWORD8 XON, + SYS_UWORD8 XOFF) +{ + return (SER_fd_SetFlowCtrl (fcMode, XON, XOFF)); +} + +short +UF_SetEscape (SYS_UWORD8 deviceNo, + SYS_UWORD8 escChar, + SYS_UWORD16 guardPeriod) +{ + return (SER_fd_SetEscape (escChar, guardPeriod)); +} + +short +UF_InpAvail (SYS_UWORD8 deviceNo) +{ + return (SER_fd_InpAvail ()); +} + +short +UF_OutpAvail (SYS_UWORD8 deviceNo) +{ + return (SER_fd_OutpAvail ()); +} + +short +UF_ReadData (SYS_UWORD8 deviceNo, + T_suspendMode suspend, + void (readOutFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 nsource, + SYS_UWORD8 *source[], + SYS_UWORD16 size[], + SYS_UWORD32 state))) +{ + return (SER_fd_ReadData (suspend, readOutFunc)); +} + +short +UF_WriteData (SYS_UWORD8 deviceNo, + T_suspendMode suspend, + void (writeInFunc (SYS_BOOL cldFromIrq, + T_reInstMode *reInstall, + SYS_UWORD8 ndest, + SYS_UWORD8 *dest[], + SYS_UWORD16 size[]))) +{ + return (SER_fd_WriteData (suspend, writeInFunc)); +} + +short +UF_StopRec (SYS_UWORD8 deviceNo) +{ + return (SER_fd_StopRec ()); +} + +short +UF_StartRec (SYS_UWORD8 deviceNo) +{ + return (SER_fd_StartRec ()); +} + +short +UF_GetLineState (SYS_UWORD8 deviceNo, + SYS_UWORD32 *state) +{ + return (SER_fd_GetLineState (state)); +} + +short +UF_SetLineState (SYS_UWORD8 deviceNo, + SYS_UWORD32 state, + SYS_UWORD32 mask) +{ + return (SER_fd_SetLineState (state, mask)); +} + +short +UF_CheckXEmpty (SYS_UWORD8 deviceNo) +{ + return (SER_fd_CheckXEmpty ()); +}