FreeCalypso > hg > fc-selenite
view src/cs/drivers/drv_app/uart/serialswitch.h @ 192:4f40ae165be4
abb.c & init.c: sync with Magnetite for Luna additions
These Luna target-specific additions are conditionalized on CONFIG_TARGET_LUNA,
a C preprocessor symbol that will never be defined in Selenite, hence this
change has exactly zero impact on FC Selenite. However, they are being pulled
in as a sync in order to keep the diff between Magnetite and Selenite to a
minimum; keeping this diff to a minimum increases our opportunities for
possible evolution of future FC firmwares.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 23 May 2020 07:03:46 +0000 |
parents | b6a5e36de839 |
children |
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/******************************************************************************* * * SERIALSWITCH.H * * 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 * ******************************************************************************/ #ifndef __SERIALSWITCH_H__ #define __SERIALSWITCH_H__ #ifndef _WINDOWS #include "l1sw.cfg" #include "swconfig.cfg" #if (!OP_L1_STANDALONE) #include "rv.cfg" #endif #include "chipset.cfg" #endif #ifndef __MONITOR__ #include "main/sys_types.h" #include "uart/traceswitch.h" #include "faxdata.h" #endif /* __MONITOR__ */ #ifdef BTEMOBILE #include "hci_ser.h" #endif #ifndef C_EXTERN #if (OP_L1_STANDALONE) #define C_EXTERN extern #else #define C_EXTERN #endif #endif /* * Constants used to identify the serial data flows. */ #define SER_FLOW_1 (0) #define SER_FLOW_2 (1) #define SER_FLOW_3 (2) #define SER_FLOW_4 (3) #define SER_PROTOCOL_STACK (SER_FLOW_1) #define SER_LAYER_1 (SER_FLOW_2) #define SER_FAX_DATA (SER_FLOW_3) #define SER_BLUETOOTH_HCI (SER_FLOW_4) #define SER_HWTEST (SER_FLOW_1) #define SER_SERIAL_TEST_1 (SER_FLOW_3) #define SER_MAX_NUMBER_OF_FLOWS (4) #define SER_MAX_NUMBER_OF_CFG (16) /* * Type used to define the various drivers configuration * available, according to the UART devices. */ typedef enum { /* Trace Flow */ DUMMY_TRACE, /* = 0 */ UART_IRDA_TRACE, /* = 1 */ UART_MODEM_TRACE, /* = 2 */ #if (CHIPSET == 12) UART_MODEM2_TRACE, /* = 3 */ #endif /* AT-Commands/Fax & Data Flow */ DUMMY_FAX_DATA = 4, /* = 4 */ /* UART IrDA F&D Driver, not supported - should be = 5 */ UART_MODEM_FAX_DATA = 6, /* = 6 */ #if (CHIPSET == 12) /* UART Modem2 F&D Driver, not supported - should be = 7 */ #endif /* Bluetooth HCI Flow */ DUMMY_BT_HCI = 8, /* = 8 */ UART_IRDA_BT_HCI, /* = 9 */ UART_MODEM_BT_HCI /* = A */ #if (CHIPSET == 12) , UART_MODEM2_BT_HCI /* = B */ #endif } T_SerialDriver; /* * Type used to describe a defined serial configuration; * Each field is a 4 bits field representing one serial flow. * * T_DefinedSerialConfig : [ flow_1 | flow_2 | flow_3 | flow_4 ] * 15 12 11 8 7 4 3 0 */ typedef struct { unsigned int flow_4 :4; unsigned int flow_3 :4; unsigned int flow_2 :4; unsigned int flow_1 :4; } T_DefinedSerialConfig; /* * Type used to describe all serial configuration informations * of a defined application: * - the default configuration to set up, if the current one is * not valid, * - the number of allowed serial configurations, * - the entire allowed serial configurations. */ typedef struct { T_DefinedSerialConfig default_config; SYS_UWORD8 num_config; T_DefinedSerialConfig allowed_config[SER_MAX_NUMBER_OF_CFG]; } T_AppliSerialInfo; /* * Functions prototypes. */ #ifndef __MONITOR__ #if (DP==1) void SER_InitSerialConfig (int application_id); #else C_EXTERN void SER_InitSerialConfig (T_AppliSerialInfo *serial_info); #endif //DP C_EXTERN SYS_BOOL SER_UartSleepStatus (void); C_EXTERN void SER_WakeUpUarts (void); void SER_restart_uart_sleep_timer (void); void SER_activate_timer_hisr (void); #if (DP==1) void SER_tr_Init (int serial_data_flow, int baudrate, void (callback_function (void))); #else C_EXTERN void SER_tr_Init (int serial_data_flow, T_tr_Baudrate baudrate, void (callback_function (void))); #endif //DP C_EXTERN SYS_UWORD32 SER_tr_ReadNChars (int serial_data_flow, char *buffer, SYS_UWORD32 chars_to_read); C_EXTERN SYS_UWORD32 SER_tr_ReadNBytes (int serial_data_flow, char *buffer, SYS_UWORD32 chars_to_read, SYS_BOOL *eof_detected); C_EXTERN SYS_UWORD32 SER_tr_WriteNChars (int serial_data_flow, char *buffer, SYS_UWORD32 chars_to_write); C_EXTERN SYS_UWORD32 SER_tr_EncapsulateNChars (int serial_data_flow, char *buffer, SYS_UWORD32 chars_to_write); C_EXTERN SYS_UWORD32 SER_tr_WriteNBytes (int serial_data_flow, SYS_UWORD8 *buffer, SYS_UWORD32 chars_to_write); C_EXTERN void SER_tr_WriteChar (int serial_data_flow, char character); C_EXTERN SYS_BOOL SER_tr_EnterSleep (int serial_data_flow); C_EXTERN void SER_tr_WakeUp (int serial_data_flow); C_EXTERN void SER_tr_WriteString (int serial_data_flow, char *buffer); #define T_UFRET T_FDRET #define UF_DEVICE_0 (0) #define UF_OK FD_OK #define UF_SUSPENDED FD_SUSPENDED #define UF_NOT_SUPPORTED FD_NOT_SUPPORTED #define UF_NOT_READY FD_NOT_READY #define UF_INTERNAL_ERROR FD_INTERNAL_ERR #define UF_LINE_ON FD_LINE_ON #define UF_LINE_OFF FD_LINE_OFF #define UF_MAX_BUFFER_SIZE FD_MAX_BUFFER_SIZE #define UF_BAUD_AUTO FD_BAUD_AUTO #define UF_BAUD_75 FD_BAUD_75 #define UF_BAUD_150 FD_BAUD_150 #define UF_BAUD_300 FD_BAUD_300 #define UF_BAUD_600 FD_BAUD_600 #define UF_BAUD_1200 FD_BAUD_1200 #define UF_BAUD_2400 FD_BAUD_2400 #define UF_BAUD_4800 FD_BAUD_4800 #define UF_BAUD_7200 FD_BAUD_7200 #define UF_BAUD_9600 FD_BAUD_9600 #define UF_BAUD_14400 FD_BAUD_14400 #define UF_BAUD_19200 FD_BAUD_19200 #define UF_BAUD_28800 FD_BAUD_28800 #define UF_BAUD_33900 FD_BAUD_33900 #define UF_BAUD_38400 FD_BAUD_38400 #define UF_BAUD_57600 FD_BAUD_57600 #define UF_BAUD_115200 FD_BAUD_115200 #define UF_BAUD_203125 FD_BAUD_203125 #define UF_BAUD_406250 FD_BAUD_406250 #define UF_BAUD_812500 FD_BAUD_812500 C_EXTERN T_FDRET SER_fd_Init (void); #if (DP==0) C_EXTERN T_FDRET SER_fd_Initialize (void); #endif C_EXTERN T_FDRET SER_fd_Enable (SYS_BOOL enable); C_EXTERN T_FDRET SER_fd_SetComPar (T_baudrate baudrate, T_bitsPerCharacter bpc, T_stopBits sb, T_parity parity); C_EXTERN T_FDRET SER_fd_SetBuffer (SYS_UWORD16 bufSize, SYS_UWORD16 rxThreshold, SYS_UWORD16 txThreshold); C_EXTERN T_FDRET SER_fd_SetFlowCtrl (T_flowCtrlMode fcMode, SYS_UWORD8 XON, SYS_UWORD8 XOFF); C_EXTERN T_FDRET SER_fd_SetEscape (char escChar, SYS_UWORD16 guardPeriod); C_EXTERN T_FDRET SER_fd_InpAvail (void); C_EXTERN T_FDRET SER_fd_OutpAvail (void); C_EXTERN T_FDRET SER_fd_EnterSleep (void); C_EXTERN T_FDRET SER_fd_WakeUp (void); C_EXTERN 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))); C_EXTERN 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[]))); C_EXTERN T_FDRET SER_fd_StopRec (void); C_EXTERN T_FDRET SER_fd_StartRec (void); C_EXTERN T_FDRET SER_fd_GetLineState (SYS_UWORD32 *state); C_EXTERN T_FDRET SER_fd_SetLineState (SYS_UWORD32 state, SYS_UWORD32 mask); #if (DP==0) C_EXTERN T_FDRET SER_fd_CheckXEmpty (void); #endif #ifdef BTEMOBILE C_EXTERN T_HCI_RET SER_bt_Init (void); C_EXTERN T_HCI_RET SER_bt_Start (void); C_EXTERN T_HCI_RET SER_bt_Stop (void); C_EXTERN T_HCI_RET SER_bt_Kill (void); C_EXTERN T_HCI_RET SER_bt_SetBaudrate (UINT8 baudrate); C_EXTERN T_HCI_RET SER_bt_TransmitPacket (void *uart_sco_tx_buffer); C_EXTERN SYS_BOOL SER_bt_EnterSleep (void); C_EXTERN void SER_bt_WakeUp (void); #endif #if ((CHIPSET == 2) || (CHIPSET == 3)) C_EXTERN void SER_uart_handler (void); #elif ((CHIPSET == 4) || (CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) C_EXTERN void SER_uart_modem_handler (void); C_EXTERN void SER_uart_irda_handler (void); #endif #if (CHIPSET == 12) C_EXTERN void SER_uart_modem2_handler (void); #endif #if (DP==1) T_FDRET UF_Init (int serial_data_flow); T_FDRET UF_Enable (int serial_data_flow, SYS_BOOL enable); T_FDRET UF_SetComPar (int serial_data_flow, T_baudrate baudrate, T_bitsPerCharacter bpc, T_stopBits sb, T_parity parity); T_FDRET UF_SetBuffer (int serial_data_flow, SYS_UWORD16 bufSize, SYS_UWORD16 rxThreshold, SYS_UWORD16 txThreshold); T_FDRET UF_SetFlowCtrl (int serial_data_flow, T_flowCtrlMode fcMode, SYS_UWORD8 XON, SYS_UWORD8 XOFF); T_FDRET UF_SetEscape (int serial_data_flow, char escChar, SYS_UWORD16 guardPeriod); T_FDRET UF_InpAvail (int serial_data_flow); T_FDRET UF_OutpAvail (int serial_data_flow); T_FDRET UF_ReadData (int serial_data_flow, 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 UF_WriteData (int uartNo, T_suspendMode suspend, void (writeInFunc (SYS_BOOL cldFromIrq, T_reInstMode *reInstall, SYS_UWORD8 ndest, SYS_UWORD8 *dest[], SYS_UWORD16 size[]))); T_FDRET UF_StopRec (int serial_data_flow); T_FDRET UF_StartRec (int serial_data_flow); T_FDRET UF_GetLineState (int serial_data_flow, SYS_UWORD32 *state); T_FDRET UF_SetLineState (int serial_data_flow, SYS_UWORD32 state, SYS_UWORD32 mask); T_FDRET UF_CheckXEmpty (int serial_data_flow); T_FDRET UF_EnterSleep (int serial_data_flow); T_FDRET UF_WakeUp (int serial_data_flow); #endif //DP /* * Functions used for Dynamic Switch. */ SYS_BOOL SER_WriteConfig (char *new_config, SYS_BOOL write_to_flash); SYS_BOOL SER_ImmediateSwitch (void); /* * Constants and macros used by Condat. * Condat uses a serial device for the protocol stack trace. */ #ifndef __SERIALSWITCH_C__ #define UT_DEVICE_0 (0) #define UT_BAUD_406250 TR_BAUD_406250 #define UT_BAUD_115200 TR_BAUD_115200 #define UT_BAUD_57600 TR_BAUD_57600 #define UT_BAUD_38400 TR_BAUD_38400 #define UT_BAUD_33900 TR_BAUD_33900 #define UT_BAUD_28800 TR_BAUD_28800 #define UT_BAUD_19200 TR_BAUD_19200 #define UT_BAUD_14400 TR_BAUD_14400 #define UT_BAUD_9600 TR_BAUD_9600 #define UT_BAUD_4800 TR_BAUD_4800 #define UT_BAUD_2400 TR_BAUD_2400 #define UT_BAUD_1200 TR_BAUD_1200 #define UT_BAUD_600 TR_BAUD_600 #define UT_BAUD_300 TR_BAUD_300 #define UT_BAUD_150 TR_BAUD_150 #define UT_BAUD_75 TR_BAUD_75 #define UT_Init(A,B,C) SER_tr_Init (SER_PROTOCOL_STACK, B, C) #define UT_ReadNChars(A,B,C) SER_tr_ReadNChars (SER_PROTOCOL_STACK, B, C) #define UT_WriteNChars(A,B,C) SER_tr_WriteNChars (SER_PROTOCOL_STACK, B, C) #define UT_WriteChar(A,B) SER_tr_WriteChar (SER_PROTOCOL_STACK, B) #define UT_WriteString(A,B) SER_tr_WriteString (SER_PROTOCOL_STACK, B) #if (DP==0) #define UF_Init(A) SER_fd_Init () #define UF_Enable(A,B) SER_fd_Enable (B) #define UF_SetComPar(A,B,C,D,E) SER_fd_SetComPar (B, C, D, E) #define UF_SetBuffer(A,B,C,D) SER_fd_SetBuffer (B, C, D) #define UF_SetFlowCtrl(A,B,C,D) SER_fd_SetFlowCtrl (B, C, D) #define UF_SetEscape(A,B,C) SER_fd_SetEscape (B, C) #define UF_InpAvail(A) SER_fd_InpAvail () #define UF_OutpAvail(A) SER_fd_OutpAvail () #define UF_ReadData(A,B,C) SER_fd_ReadData (B, C) #define UF_WriteData(A,B,C) SER_fd_WriteData (B, C) #define UF_StopRec(A) SER_fd_StopRec() #define UF_StartRec(A) SER_fd_StartRec () #define UF_GetLineState(A,B) SER_fd_GetLineState (B) #define UF_SetLineState(A,B,C) SER_fd_SetLineState (B, C) #define UF_CheckXEmpty(A) SER_fd_CheckXEmpty () #endif //DP #endif /* __SERIALSWITCH_C__ */ #endif /* __MONITOR__ */ #undef C_EXTERN #endif /* __SERIALSWITCH_H__ */