view src/g23m-aci/uart/uart.h @ 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
line source

/*
+-----------------------------------------------------------------------------
|  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 :  Definitions for the Protocol Stack Entity
|             Universal Asynchronous Receiver Transmitter (UART).
+-----------------------------------------------------------------------------
*/

#ifndef UART_H
#define UART_H

/*==== MACROS ======================================================*/

/*
 * defines the user of the vsi interface
 */
#define VSI_CALLER            UART_handle,
#define VSI_CALLER_SINGLE     UART_handle

/*
 * VERSION
 *
 * Description :  The constants define the type and the value
 *                of a version identification. The version
 *                is part of the monitor struct.
 */
#define VERSION_UART    "UART 1.1"

#ifdef TI_PS_OP_VSI_NO_CALL_ID
#define TIMER_START(C,I,T)         vsi_t_start_nc(I,T)
#define TIMER_PSTART(C,I,T,R)      vsi_t_pstart_nc(I,T,R)
#define TIMER_STOP(C,I)            vsi_t_stop_nc(I)
#define TIMER_STATUS(C,I,T)        vsi_t_status_nc(I,T)
#define SUSPEND_SELF(C,T)          vsi_t_sleep_nc(T)
#define SYSTEM_TIME(C,T)           vsi_t_time_nc(T)               
#else /* TI_PS_OP_VSI_NO_CALL_ID */
#define TIMER_START(C,I,T)         vsi_t_start(C,I,T)
#define TIMER_PSTART(C,I,T,R)      vsi_t_pstart(C,I,T,R)
#define TIMER_STOP(C,I)            vsi_t_stop(C,I)
#define TIMER_STATUS(C,I,T)        vsi_t_status(C,I,T)
#define SUSPEND_SELF(C,T)          vsi_t_sleep(C,T)
#define SYSTEM_TIME(C,T)           vsi_t_time(C,T)               
#endif /* TI_PS_OP_VSI_NO_CALL_ID */


/*
 * This is just a TEMPORARY define until the issues with OPTION_MULTITHREAD
 * are settled. This define SHOULD be contained in GSM.H.
 */
#undef _ENTITY_PREFIXED
#define _ENTITY_PREFIXED(N) uart_##N

/*
 * Communication handles (see also UART_PEI.C)
 */
#define hCommMMI                uart_hCommMMI
#define hCommUART               uart_hCommUART

/*
 * Macros for error tracing
 */

#ifndef TRACE_ERROR_P1
#define TRACE_ERROR_P1(f,a1)                  vsi_o_error_ttrace(f,a1);
#endif

#ifndef TRACE_ERROR_P2
#define TRACE_ERROR_P2(f,a1,a2)               vsi_o_error_ttrace(f,a1,a2);
#endif

#ifndef TRACE_ERROR_P3
#define TRACE_ERROR_P3(f,a1,a2,a3)            vsi_o_error_ttrace(f,a1,a2,a3);
#endif

#ifndef TRACE_ERROR_P4
#define TRACE_ERROR_P4(f,a1,a2,a3,a4)          vsi_o_error_ttrace(f,a1,a2,a3,a4);
#endif

/*==== CONSTANTS ======================================================*/

#if defined (DTILIB)
/*
 * dtilib interface
 */

#define UART_DTI_UP_INTERFACE  0
#define UART_UPLINK_QUEUE_SIZE 0
#endif  /* DTILIB */
/*
 * Scaling
 */
#ifdef FF_MULTI_PORT
#define UART_INSTANCES     FF_MULTI_PORT
#else /* FF_MULTI_PORT */
#ifdef FF_TWO_UART_PORTS
#define UART_INSTANCES                 2
#else /* FF_TWO_UART_PORTS */
#define UART_INSTANCES                 1
#endif /* FF_TWO_UART_PORTS */
#endif /* FF_MULTI_PORT */

#define UART_MAX_NUMBER_OF_CHANNELS    6

/*
 * Bitoffset for encoding/decoding
 */
#define ENCODE_OFFSET                 0

/*
 * Service definitions. Used to access service data with GET/SET_STATE.
 *
 * Services with multiple incarnation have to be defined as xxx->
 * Services with only one incarnation have to be defined as xxx.
 *
 */
#define UART_SERVICE_KER        ker.
#define UART_SERVICE_RX         rx.
#define UART_SERVICE_TX         tx.
#define UART_SERVICE_DTX        dtx->
#define UART_SERVICE_DRX        drx->
#define UART_SERVICE_RT         rt.

/*
 * Service name definitions for trace purposes.
 */
#ifndef NTRACE

#define SERVICE_NAME_UART_SERVICE_KER     "KER"
#define SERVICE_NAME_UART_SERVICE_RX      "RX"
#define SERVICE_NAME_UART_SERVICE_TX      "TX"
#define SERVICE_NAME_UART_SERVICE_DRX     "DRX"
#define SERVICE_NAME_UART_SERVICE_DTX     "DTX"
#define SERVICE_NAME_UART_SERVICE_RT      "RT"

#endif /* !NTRACE */


/*
 * State definitions for each service.
 */

#define KER_DEAD                                                1
#define KER_READY                                               2
#define KER_MUX_ESTABLISH                                       3
#define KER_MUX                                                 4
#define KER_MUX_DLC_CLOSING                                     5
#define KER_MUX_CLOSING                                         6
#define KER_MUX_CLOSED                                          7

#define RX_DEAD                                                 8
#ifdef DTILIB
/*
 * we do not use the one from DTILIB here
 */
#undef RX_READY
#endif
#define RX_READY                                                9
#define RX_MUX                                                 10

#define TX_DEAD                                                11
#ifdef DTILIB
/*
 * we do not use the one from DTILIB here
 */
#undef TX_READY
#endif
#define TX_READY                                               12
#define TX_READY_FLUSHING                                      13
#define TX_MUX                                                 14
#define TX_MUX_FLUSHING                                        15

#define DRX_DEAD                                               16
#define DRX_READY                                              17
#define DRX_NOT_READY                                          18
#define DRX_FLUSHING                                           19

#define DTX_DEAD                                               20
#define DTX_READY                                              21
#define DTX_NOT_READY                                          22

#define RT_STATE                                               23

/*
 * DLC Connection states
 */
#define UART_CONNECTION_DEAD                                   24
#define UART_CONNECTION_SABM_RCVD                              25
#define UART_CONNECTION_DISC_SENT                              26
#define UART_CONNECTION_OPEN                                   27

/*
 * states of TX ISR state machine
 */
#define UART_TX_BEGIN                                          28
#define UART_TX_ADDRESS                                        29
#define UART_TX_CONTROL                                        30
#define UART_TX_INFORMATION                                    31
#define UART_TX_FCS                                            32
#define UART_TX_END                                            33

/*
 * states of TX sending indicator
 */
#define UART_TX_SENDING                                        34
#define UART_TX_NOT_SENDING                                    35

/*
 * states of RX receiving indicator
 */
#define UART_RX_RECEIVING                                      36
#define UART_RX_NOT_RECEIVING                                  37

/*
 * states of RX ISR state machine
 */
#define UART_RX_ERROR                                          38
#define UART_RX_BEGIN                                          39
#define UART_RX_ADDRESS                                        40
#define UART_RX_CONTROL                                        41
#define UART_RX_INFORMATION                                    42
#define UART_RX_FCS                                            43
#define UART_RX_END                                            44

/*
 * DLC process states of reception
 */
#define UART_RX_PROCESS_STOP                                   45
#define UART_RX_PROCESS_READY                                  46
#define UART_RX_PROCESS_COMPLETE                               47

/*
 * definition of flush states for service KER
 */
#define UART_KER_NOT_FLUSHING                                  48
#define UART_KER_DRX_FLUSH                                     49
#define UART_KER_TX_FLUSH                                      50

/*
 * special channel instance values
 */
#define UART_CONTROL_INSTANCE         UART_MAX_NUMBER_OF_CHANNELS
#define UART_EMPTY_INSTANCE                                   255

/*
 * priority value
 */
#define UART_PRIORITY_CONTROL                                   0

/*
 * HDLC values
 */
#define UART_HDLC_FLAG                                       0x7e
#define UART_HDLC_ESCAPE                                     0x7d
#define UART_SABM_FRAME                                      0x3f
#define UART_UA_FRAME                                        0x73
#define UART_DM_CONTROL_FRAME                                0x1f
#define UART_DM_DATA_FRAME                                   0x0f
#define UART_DISC_FRAME                                      0x53
#define UART_UIH_CONTROL_FRAME                               0xff
#define UART_UIH_DATA_FRAME                                  0xef

/*
 * UART DLC channel values
 */
#define UART_DLCI_CONTROL                                       0
#define UART_DLCI_INVALID                                     255
#define UART_DLCI_POS                                           2

/*
 * mask values for forward parameter
 */
#define UART_FORWARD_CLD                               0x00000001
#define UART_FORWARD_FCON                              0x00000002
#define UART_FORWARD_FCOFF                             0x00000004
#define UART_FORWARD_MSC                               0x00000008
#define UART_FORWARD_SABM                              0x00000010
#define UART_FORWARD_DLC_RELEASE                       0x00000020
#define UART_FORWARD_PSC                               0x00000040
#define UART_FORWARD_RESPONSE                          0x00000080

/*
 * message type values (for UIH command frames)
 */
#define UART_MSG_TYPE_PSC_C                                  0x43
#define UART_MSG_TYPE_PSC_R                                  0x41
#define UART_MSG_TYPE_CLD_C                                  0xc3
#define UART_MSG_TYPE_CLD_R                                  0xc1
#define UART_MSG_TYPE_FCON_C                                 0xa3
#define UART_MSG_TYPE_FCON_R                                 0xa1
#define UART_MSG_TYPE_FCOFF_C                                0x63
#define UART_MSG_TYPE_FCOFF_R                                0x61
#define UART_MSG_TYPE_MSC_C                                  0xe3
#define UART_MSG_TYPE_MSC_R                                  0xe1
#define UART_MSG_TYPE_NSC_R                                  0x11
#define UART_MSG_TYPE_SNC_C                                  0xd3
#define UART_MSG_TYPE_SNC_R                                  0xd1

/*
 * message length field values
 */
#define UART_MSG_LENGTH_POS                                     1

/*
 * definitions for service negotiation
 */
#define UART_NO_SERVICE                                      0x00
#define UART_NO_VOICE_CODEC                                  0x00

/*
 * definitions for modem status commands
 */
#define UART_NO_BREAK_SIGNAL                                 0x01

/*
 * FCS calculation
 */
#define UART_INITFCS                                         0xff
#define UART_GOODFCS                                         0xcf

/*
 * offset addresses for frame handling in service KER
 * (in bytes after flag)
 */
#define UART_OFFSET_ADDRESS                                   0
#define UART_OFFSET_CONTROL                                   1
#define UART_OFFSET_INFO                                      2

/*
 * common EA and CR bit
 */
#define UART_EA                                            0x01
#define UART_CR                                            0x02
/*
 * modem status command (MSC) masks and positions
 */
#define UART_MSC_BRKLEN_POS                                   4
#define UART_MSC_DV_MASK                                   0x80
#define UART_MSC_IC_MASK                                   0x40
#define UART_MSC_RTR_MASK                                  0x08
#define UART_MSC_RTC_MASK                                  0x04
#define UART_MSC_FC_MASK                                   0x02
#define UART_MSC_BRK_MASK                                  0x02
#define UART_MSC_BRKLEN_MASK                               0xf0

/*
 * !!! for vsi_t_sleep may be changed???
 */
#define ONE_FRAME                                             0
/*
 * position and mask definitions
 */
#define BRK_LEN_POS                                      BRKLEN
#define BRK_LEN_MASK                                   0x1fe00L
#define SA_MASK                                  ( 1UL <<  SA )
#define SB_MASK                                  ( 1UL <<  SB )
#define X_MASK                                   ( 1UL <<   X )
#define BRK_MASK                                 ( 1UL << BRK )
#define ESC_MASK                                 ( 1UL << ESC )
#define RI_MASK                                  ( 1UL <<  RI )
#define DCD_MASK                                 ( 1UL << DCD )
/*
 * UART intern position and mask definitions
 */
#define UART_CTS_POS                                          0
#define UART_RTS_POS                                          1
#define UART_DSR_POS                                          2
#define UART_DTR_POS                                          3
#define UART_DCD_POS                                          4
#define UART_BRK_RX_POS                                       5
#define UART_BRK_TX_POS                                       6
#define UART_ESC_RX_POS                                       7
#define UART_ESC_TX_POS                                       8
#define UART_BRKLEN_RX_POS                                    9
#define UART_BRKLEN_TX_POS                                   17
#define UART_FC_RX_POS                                       25
#define UART_FC_TX_POS                                       26
#define UART_RI_POS                                          27
#define UART_SA_TX_POS                                       28
#define UART_SB_TX_POS                             UART_DCD_POS
#define UART_X_TX_POS                                        29
#define UART_SA_RX_POS                             UART_DTR_POS
#define UART_SB_RX_POS                                       30
#define UART_X_RX_POS                              UART_RTS_POS
#define UART_CTS_MASK                     (1UL << UART_CTS_POS)
#define UART_RTS_MASK                     (1UL << UART_RTS_POS)
#define UART_DSR_MASK                     (1UL << UART_DSR_POS)
#define UART_DTR_MASK                     (1UL << UART_DTR_POS)
#define UART_DCD_MASK                     (1UL << UART_DCD_POS)
#define UART_BRK_RX_MASK               (1UL << UART_BRK_RX_POS)
#define UART_BRK_TX_MASK               (1UL << UART_BRK_TX_POS)
#define UART_ESC_RX_MASK               (1UL << UART_ESC_RX_POS)
#define UART_ESC_TX_MASK               (1UL << UART_ESC_TX_POS)
#define UART_BRKLEN_RX_MASK       (255UL << UART_BRKLEN_RX_POS)
#define UART_BRKLEN_TX_MASK       (255UL << UART_BRKLEN_TX_POS)
#define UART_FC_RX_MASK                 (1UL << UART_FC_RX_POS)
#define UART_FC_TX_MASK                 (1UL << UART_FC_TX_POS)
#define UART_RI_MASK                       (1UL << UART_RI_POS)
#define UART_SA_TX_MASK                 (1UL << UART_SA_TX_POS)
#define UART_SB_TX_MASK                 (1UL << UART_SB_TX_POS)
#define UART_X_TX_MASK                   (1UL << UART_X_TX_POS)
#define UART_SA_RX_MASK                 (1UL << UART_SA_RX_POS)
#define UART_SB_RX_MASK                 (1UL << UART_SB_RX_POS)
#define UART_X_RX_MASK                   (1UL << UART_X_RX_POS)

/*
 * values for received primitive bitfield
 */
#define UART_PARAMETERS_REQ_MASK                     0x00000001
#define UART_DTI_REQ_MASK                            0x00000004
#define UART_DISABLE_REQ_MASK                        0x00000008
#define UART_RING_REQ_MASK                           0x00000010
#define UART_DCD_REQ_MASK                            0x00000020
#define UART_MUX_START_REQ_MASK                      0x00000080
#define UART_MUX_DLC_RELEASE_REQ_MASK                0x00000100
#define UART_MUX_SLEEP_REQ_MASK                      0x00000200
#define UART_MUX_WAKEUP_REQ_MASK                     0x00000400
#define UART_MUX_CLOSE_REQ_MASK                      0x00000800
#define UART_DTI_DATA_REQ_MASK                       0x00001000

/*
 * value for N1 in ready mode
 */
#define UART_N1_READY_MODE                                   10
/*
 * buffer size of RX buffer in multiplexer mode
 */
#define UART_RX_MUX_BUFFER_SIZE          (100 - sizeof(T_desc2))

#ifdef WIN32
#define HISR_STACK_SIZE         512
#endif
#ifdef _SIMULATION_
#define UART_TX_SIM_BUFFER_SIZE                             136
#endif /* _SIMULATION_ */

/*
 * Timer handle definitions.
 */

#define UART_RT_INDEX_T1           0
#define UART_RT_INDEX_T2           1
#define UART_RT_INDEX_T3           2
#define UART_RT_INDEX_TESD         3  /* Escape Sequence Detection */
#define UART_TIMER_PER_INSTANCE    4

#define UART_TIMER_MAX             (UART_TIMER_PER_INSTANCE * UART_INSTANCES)

/* Dynamic Configuration Numbers */
#define RESET                0
#ifdef DEBUG_COUNTERS
#define DUMP_COUNTERS        6
#endif /* DEBUG_COUNTERS */

/*
 * definition of constants for DTX dynamic buffer management:
 */
#define UART_DTX_MAX_BUF_SIZE          1000     /* max. 1000 bytes */
#define UART_DTX_MAX_SIZE_MULTIPLIER \
                               ((USHORT)(UART_DTX_MAX_BUF_SIZE / uart_data->n1))

/*==== GLOBAL VARIABLES ======================================================*/

/*==== TYPES ======================================================*/

/*
 * UART global typedefs
 */
typedef UBYTE   T_BIT;

/*
 * definition of sending state for service DRX
 */
typedef enum
{
  UART_DRX_NOT_SENDING,
  UART_DRX_SENDING,
  UART_DRX_INVALID
} T_DRX_SENDING_STATE;

/*
 * definition of receiving states for service DTX
 */
typedef enum
{
  UART_DTX_NOT_RECEIVING,
  UART_DTX_RECEIVING,
  UART_DTX_INVALID
} T_DTX_RECEIVING_STATE;

/*
 * definition of sending/receiving state for service KER
 */
typedef enum
{
  UART_KER_NOT_SENDING,
  UART_KER_SENDING,
  UART_KER_NOT_RECEIVING,
  UART_KER_RECEIVING,
  UART_KER_INVALID
} T_KER_TRANSMISSION_STATE;

/*
 * definition of timer states for service RT
 */
typedef enum
{
  UART_RT_STARTED,
  UART_RT_STOPPED
} T_TIMER_STATE;

/*
 * definition of data flow states
 */
typedef enum
{
  UART_FLOW_DISABLED,
  UART_FLOW_ENABLED
} T_DATA_FLOW_STATE;

/*
 * definition of escape sequence detection (ESD) states
 */
typedef enum
{
  UART_ESD_NULL,          /* ESD not in progress */
  UART_ESD_CHAR_1,        /* first ESD character has been received ('+') */
  UART_ESD_CHAR_2,        /* second ESD character... */
  /* third ESD character has been received (fourth would be invalid) */
  UART_ESD_CHAR_3,
  /* escape sequence detected, but charcters are not removed from data stream */
  UART_ESD_DETECTED
} T_ESD_STATE;

/*
 * data structure for each service
 */

typedef struct /* T_KER_DATA */
{
  UBYTE                       state;
  /*
   * Required for state traces.
   */
#ifndef NTRACE
  char                        *name;
  char                        *state_name;
#endif /* !NTRACE */

  /*
   * service specific: UART parameters, normal mode
   */
#ifdef FF_MULTI_PORT
  T_GSI_DCB                   act_dcb;          /* device control block */
#else /* FF_MULTI_PORT */
  T_baudrate          act_br;     /* baud rate */
  T_bitsPerCharacter  act_bpc;    /* bit per character */
  T_stopBits          act_sb;     /* stop bits */
  T_parity            act_par;    /* parity */
  UBYTE               act_xon;    /* XOn character */
  UBYTE               act_xoff;   /* XOff character */
  T_flowCtrlMode      act_fc_rx;  /* RX flow control mode */
  T_flowCtrlMode      act_fc_tx;  /* TX flow control mode */
  UBYTE               act_ec;     /* escape character */
  USHORT              act_gp;     /* guard period */
#endif /* FF_MULTI_PORT */
  /*
   * service specific: multiplexer mode
   */
  UBYTE                       n2;               /* maximum number of retransmissions */
  /*
   * service specific: receive part, multiplexer mode
   */
  T_desc2*                    rx_data_desc;     /* data received from peer  */
  /* state of internal data receiving */
  T_KER_TRANSMISSION_STATE    receiving_state;
  /* data to be sent to peer */
  T_desc2*                    tx_data_desc;
  /* data waiting for access to tx_data_desc */
  T_desc2*                    tx_data_waiting;
  /* KER currently sending via UART? */
  T_KER_TRANSMISSION_STATE    sending_state;
  /* data flow enabled/disabled */
  T_DATA_FLOW_STATE           data_flow_tx;
  /* number of running T1 timers */
  UBYTE                       nr_t1;
  /* number of running T2 timers */
  UBYTE                       nr_t2;
  /* bitfield of received UART primitives */
  ULONG                       received_prim;
  /* state of flushing */
  UBYTE                       flush_state;
} T_KER_DATA;


typedef struct /* T_RX_DATA */
{
  UBYTE                       state;
  /*
   * Required for state traces.
   */
#ifndef NTRACE
  char                        *name;
  char                        *state_name;
#endif /* !NTRACE */


#ifndef FF_MULTI_PORT
#ifdef WIN32
  NU_HISR                     rx_HISR;
#endif /* WIN32 */
#endif /* !FF_MULTI_PORT */

  /*
   * ab hier service spezif.
   */
#ifdef FF_MULTI_PORT
  T_desc2*      mux_buffer;       /* buffer in multiplexer mode */
  USHORT        mux_pos;          /* analyse position in multiplexer mode */
  BOOL          waiting_for_data; /* waiting for indication of UART driver */
#else /* FF_MULTI_PORT */
  T_BIT         cldFromIrq;       /* indicator whether it is an IRQ call */
  T_reInstMode  *reInstall;       /* reinstallation mode */
  UBYTE         nsource;          /* number of readable fragments */
  UBYTE         *source[2];       /* addresses of readable fragments */
  USHORT        *size;            /* sizes of readable fragments */
  BOOL          read_permission;  /* permission of ISR to read out data */
#endif /* FF_MULTI_PORT */

  ULONG         lines;            /* status of V.24 lines */
  ULONG         prev_lines;       /* old status of V.24 lines */
  UBYTE         dlc_instance;     /* instance of DLC table */
  BOOL          escape;           /* control escape character received */
  UBYTE         receive_state;    /* state of reception */
  UBYTE         analyze_state;    /* state of frame analysis */
  UBYTE         fcs;              /* calculated fcs */
  UBYTE         address_field;    /* frame address field */
  USHORT        stored_len;       /* length of stored information field */
#ifdef _SIMULATION_
  T_desc2*      sim_buffer;       /* to simulate driver reception buffer */
  USHORT        sim_pos;          /* position to read next byte */
  BOOL          sim_send;         /* send DTI_GETDATA_REQ */
#endif /* _SIMULATION_ */
} T_RX_DATA;


typedef struct /* T_TX_DATA */
{
  UBYTE                       state;
  /*
   * Required for state traces.
   */
#ifndef NTRACE
  char                        *name;
  char                        *state_name;
#endif /* !NTRACE */

#ifndef FF_MULTI_PORT
#ifdef WIN32
  NU_HISR       tx_HISR;
#endif
#endif /* !FF_MULTI_PORT */

  /*
   * ab hier service spezif.
   */
#ifdef FF_MULTI_PORT
  T_desc2*      mux_buffer;         /* buffer in multiplexer mode */
  USHORT        mux_pos;            /* transmit position in multiplexer mode */
  BOOL          waiting_for_space;  /* waiting for indication of UART driver */
#ifdef _SIMULATION_
  T_desc2*      sim_buffer;         /* to simulate driver transsion buffer */
  USHORT        sim_sent;           /* already sent bytes */
  BOOL          sim_waiting;        /* waiting for READY */
#endif /* _SIMULATION_ */
#else /* FF_MULTI_PORT */
  T_BIT         cldFromIrq;         /* indicator whether it is an IRQ call */
  T_reInstMode  *reInstall;         /* reinstallation mode */
  UBYTE         ndest;              /* number of writeable fragments */
  UBYTE         *dest[2];           /* addresses of writeable fragments */
  USHORT        *size;              /* sizes of writeable fragments */
#endif /* FF_MULTI_PORT */

  ULONG         lines;              /* status of V.24 lines */
  UBYTE         dlc_instance;       /* instance of global channel table */
  UBYTE         p_zero;             /* relative zero for priority counter */
  UBYTE         send_state;         /* indicator whether TX is sending */
} T_TX_DATA;


typedef struct /* T_DTX_DATA */
{
  UBYTE                       state;
  /*
   * Required for state traces.
   */
#ifndef NTRACE
  char                        *name;
  char                        *state_name;
#endif /* !NTRACE */

  /*
   * service specific:
   */
  /* stores generic data descriptor to send */
  T_desc2               *to_send_data;
  /* current size of to send data descriptor */
  USHORT                cur_desc_size;
  /* next to write position in current descriptor */
  USHORT                write_pos;
  /* multiplier to dynamically adapt cur_desc_size; min. is 3 */
  USHORT                size_multiplier;
  /* flow control state (X bit) */
  UBYTE                 st_flow;
  /* line state SA */
  UBYTE                 st_line_sa;
  /* line state SB */
  UBYTE                 st_line_sb;
  /* escape state */
  UBYTE                 st_break_len;
  /* indicator whether line states changed */
  BOOL                  lines_changed;
  /* state of internal data receiving */
  T_DTX_RECEIVING_STATE receiving_state;
  /* indicator whether data flow is enabled or disabled */
  T_DATA_FLOW_STATE     data_flow;
#if defined DTILIB
/* state of DTILIB connection */
  UBYTE                 dti_dtx_state;
#else
  /* vsi handle for uplink of this entity */
  T_HANDLE              hComm_DTX_UPLINK;
#endif
  /* dlc instance wich belongs to this DTX instance */
  UBYTE                 dlc_instance;
  /* enable/disable escape sequence detection */
  UBYTE                 detect_escape;
  /* escape sequence detection state */
  T_ESD_STATE           esd_state;
  /* escape sequence detection guard period time */
  T_TIME                esd_guard_time;
  /* escape sequence detection scan position */
  USHORT                esd_pos;
#ifdef _SIMULATION_
  char                  *esd_state_name;
#endif
} T_DTX_DATA;


typedef struct /* T_DRX_DATA */
{
  UBYTE                       state;
  /*
   * Required for state traces.
   */
#ifndef NTRACE
  char                        *name;
  char                        *state_name;
#endif /* !NTRACE */

  /*
   * service specific:
   */
  /* DRX currently sending via UART? */
  T_DRX_SENDING_STATE sending_state;
  /* data flow enabled/disabled */
  T_DATA_FLOW_STATE   data_flow;

  /* data descriptor received via DTI */
  T_desc2*            received_data;
  /* already processed data */
  USHORT              read_pos;
#if defined DTILIB
  /* state of DTILIB connection */
  UBYTE               dti_drx_state;
#else
  /* vsi handle for uplink of this entity */
  T_HANDLE            hComm_DRX_UPLINK;
#endif
  /* dlc instance wich belongs to this DRX instance */
  UBYTE               dlc_instance;
} T_DRX_DATA;


typedef struct /* T_RT_DATA */
{
  UBYTE                       state;
  /*
   * Required for state traces.
   */
#ifndef NTRACE
  char                        *name;
  char                        *state_name;
#endif /* !NTRACE */

  /*
   * service specific:
   */
  T_TIMER_STATE               state_t1;         /* state of timer T1 */
  T_TIMER_STATE               state_t2;         /* state of timer T2 */
  T_TIMER_STATE               state_t3;         /* state of timer T3 */
  T_TIMER_STATE               state_tesd;       /* state of timer TESD */
  T_TIME                      t1;               /* start value of timer T1 */
  T_TIME                      t2;               /* start value of timer T2 */
  T_TIME                      t3;               /* start value of timer T3 */
  T_TIME                      tesd;             /* start value of timer TESD */

} T_RT_DATA;


/*
 * global channel structure
 */
typedef struct /* T_DLC */
{
  T_DRX_DATA  *drx;         /* instance of appropriate DRX service */
  T_DTX_DATA  *dtx;         /* instance of appropriate DTX service */

  UBYTE       dlci;         /* Data Link Connection Identifier */
  UBYTE       priority;     /* priority of dlc */
#if defined DTILIB
  UBYTE       dti_state;    /* state of DTILIB connection */
#else
  T_HANDLE    hCommUPLINK;  /* VSI connection handle */
#endif
  UBYTE       connection_state; /* state of DLC connection */

  /*
   * information for service TX
   */
  T_desc2* transmit_data;   /* data to transmit to the TE */
  USHORT  transmit_pos;     /* start position to transmit */
  UBYTE   p_counter;        /* priority counter to dermine send interval */

  /*
   * information for service RX
   */
  T_desc2* receive_data;    /* descriptor to write */
  USHORT  receive_pos;      /* start position to write */
  USHORT  receive_size;     /* size of write descriptor */
  UBYTE   receive_process;  /* state of receive process */

  /*
   * information for service KER
   */
  T_desc2* last_command;    /* last sent command frame */
  T_desc2* next_command;    /* next command frames to send */
  UBYTE   retransmissions;  /* number of retransmissions of command frame */
  ULONG   lines;            /* line states of DLC */
  UBYTE   service;
  UBYTE   codec;
  ULONG   received_prim;    /* bitfield of received UART primitives */
  BOOL    flushed;          /* indicator whether DLC is flushed */
} T_DLC;


/*
 * summery of all service
 */

typedef struct /* T_UART_DATA */
{

  /*
   * UART layer parameters
   */
  UBYTE                       version;

  /*
   * Service data structures
   *
   * Services with multiple incarnations require an array of structures
   * named xxx_base[] with xxx = service abbrevation, and additionally a
   * pointer named *xxx, which will be accessed instead of xxx_base.
   *
   * Services with only one incarnation just have to declare one structure
   * named xxx (no need for xxx_base[] and *xxx).
   *
   * The differentiation between the two access possibilites is made with
   * the defines of the service names above (UART_SERVICE_XXX).
   */
  T_KER_DATA                           ker;
  T_RX_DATA                            rx;
  T_TX_DATA                            tx;
  T_DRX_DATA                           drx_base[UART_MAX_NUMBER_OF_CHANNELS];
  T_DRX_DATA                           *drx;
  T_DTX_DATA                           dtx_base[UART_MAX_NUMBER_OF_CHANNELS];
  T_DTX_DATA                           *dtx;
  T_RT_DATA                            rt;

  /*
   * global UART variables
   */
  UBYTE             device;         /* index of the UART channel for this instance */
  USHORT            n1;             /* max. length of a frame in multiplexer mode */
  UBYTE             xon;            /* XON character for software flow control */
  UBYTE             xoff;           /* XOFF character for software flow control */
  T_DLC             dlc_table[UART_MAX_NUMBER_OF_CHANNELS + 1]; /* channel table */
  UBYTE             dlc_instance[64]; /* lookup table for for DLC instances */
  USHORT            timer_t1_index; /* Index of timer T1 in this instance */
  USHORT            timer_t2_index; /* Index of timer T2 in this instance */
  USHORT            timer_t3_index; /* Index of timer T3 in this instance */
  USHORT            timer_tesd_index;/* Index of timer TESD in this instance */
  UBYTE             act_ec;         /* Escape Character */
  USHORT            act_gp;         /* Guard Period */

#ifdef WIN32
  UBYTE   HISR_stack[HISR_STACK_SIZE];
#endif

  /*
   * global UART constants
   */
  UBYTE*            fcstab; /* lookup table for FCS calculation */
} T_UART_DATA;

#ifndef DTILIB
/*
 * global table which maps an unique c_id to
 * pointers of DRX/DTX instances which serve this channel
 */
typedef struct /* T_UART_CID_TABLE */
{
  UBYTE         c_id;           /* channel id */
  T_UART_DATA*  uart_data;      /* pointer to UART data for this channel */
  T_DRX_DATA*   drx;            /* pointer to DRX service for this channel */
  T_DTX_DATA*   dtx;            /* pointer to DTX service for this channel */
} T_UART_CID_TABLE;
#endif /* DTILIB */

/*==== EXPORT =====================================================*/


/*
 * Entity data base
 */

#ifdef UART_PEI_C
/*
 * FCS lookup table
 */
static UBYTE uart_fcstable_base[256] = { /* reversed, 8-bit, poly=0x07 */
    0x00, 0x91, 0xE3, 0x72, 0x07, 0x96, 0xE4, 0x75,
    0x0E, 0x9F, 0xED, 0x7C, 0x09, 0x98, 0xEA, 0x7B,
    0x1C, 0x8D, 0xFF, 0x6E, 0x1B, 0x8A, 0xF8, 0x69,
    0x12, 0x83, 0xF1, 0x60, 0x15, 0x84, 0xF6, 0x67,
    0x38, 0xA9, 0xDB, 0x4A, 0x3F, 0xAE, 0xDC, 0x4D,
    0x36, 0xA7, 0xD5, 0x44, 0x31, 0xA0, 0xD2, 0x43,
    0x24, 0xB5, 0xC7, 0x56, 0x23, 0xB2, 0xC0, 0x51,
    0x2A, 0xBB, 0xC9, 0x58, 0x2D, 0xBC, 0xCE, 0x5F,
    0x70, 0xE1, 0x93, 0x02, 0x77, 0xE6, 0x94, 0x05,
    0x7E, 0xEF, 0x9D, 0x0C, 0x79, 0xE8, 0x9A, 0x0B,
    0x6C, 0xFD, 0x8F, 0x1E, 0x6B, 0xFA, 0x88, 0x19,
    0x62, 0xF3, 0x81, 0x10, 0x65, 0xF4, 0x86, 0x17,
    0x48, 0xD9, 0xAB, 0x3A, 0x4F, 0xDE, 0xAC, 0x3D,
    0x46, 0xD7, 0xA5, 0x34, 0x41, 0xD0, 0xA2, 0x33,
    0x54, 0xC5, 0xB7, 0x26, 0x53, 0xC2, 0xB0, 0x21,
    0x5A, 0xCB, 0xB9, 0x28, 0x5D, 0xCC, 0xBE, 0x2F,
    0xE0, 0x71, 0x03, 0x92, 0xE7, 0x76, 0x04, 0x95,
    0xEE, 0x7F, 0x0D, 0x9C, 0xE9, 0x78, 0x0A, 0x9B,
    0xFC, 0x6D, 0x1F, 0x8E, 0xFB, 0x6A, 0x18, 0x89,
    0xF2, 0x63, 0x11, 0x80, 0xF5, 0x64, 0x16, 0x87,
    0xD8, 0x49, 0x3B, 0xAA, 0xDF, 0x4E, 0x3C, 0xAD,
    0xD6, 0x47, 0x35, 0xA4, 0xD1, 0x40, 0x32, 0xA3,
    0xC4, 0x55, 0x27, 0xB6, 0xC3, 0x52, 0x20, 0xB1,
    0xCA, 0x5B, 0x29, 0xB8, 0xCD, 0x5C, 0x2E, 0xBF,
    0x90, 0x01, 0x73, 0xE2, 0x97, 0x06, 0x74, 0xE5,
    0x9E, 0x0F, 0x7D, 0xEC, 0x99, 0x08, 0x7A, 0xEB,
    0x8C, 0x1D, 0x6F, 0xFE, 0x8B, 0x1A, 0x68, 0xF9,
    0x82, 0x13, 0x61, 0xF0, 0x85, 0x14, 0x66, 0xF7,
    0xA8, 0x39, 0x4B, 0xDA, 0xAF, 0x3E, 0x4C, 0xDD,
    0xA6, 0x37, 0x45, 0xD4, 0xA1, 0x30, 0x42, 0xD3,
    0xB4, 0x25, 0x57, 0xC6, 0xB3, 0x22, 0x50, 0xC1,
    0xBA, 0x2B, 0x59, 0xC8, 0xBD, 0x2C, 0x5E, 0xCF
};

T_UART_DATA uart_data_base[ UART_INSTANCES ], *uart_data;

#ifndef DTILIB
/*
 * global table which maps an unique c_id to the instance
 * number of the UART instance which serves this channel
 */
T_UART_CID_TABLE          uart_cid_table[ UART_INSTANCES * \
                              UART_MAX_NUMBER_OF_CHANNELS ];
#endif /* !DTILIB */

#else /* UART_PEI_C */
EXTERN UBYTE              uart_fcstable_base[256];
EXTERN T_UART_DATA        uart_data_base[], *uart_data;
#ifndef DTILIB
EXTERN T_UART_CID_TABLE   uart_cid_table[];
#endif /* !UART_DTILIB */
/*
 * function prototypes
 */
#ifdef FF_MULTI_PORT
EXTERN void pei_uart_driver_signal (T_DRV_SIGNAL *SigPtr);
#endif /* FF_MULTI_PORT */
#endif /* UART_PEI_C */

#define ENTITY_DATA           uart_data

/*
 * prefix service functions
 */
#define ker_init              _ENTITY_PREFIXED(ker_init)
#define rx_init               _ENTITY_PREFIXED(rx_init)
#define tx_init               _ENTITY_PREFIXED(tx_init)
#define drx_init              _ENTITY_PREFIXED(drx_init)
#define dtx_init              _ENTITY_PREFIXED(dtx_init)
#define rt_init               _ENTITY_PREFIXED(rt_init)
#define rx_read_data          _ENTITY_PREFIXED(rx_read_data)
#define tx_write_data         _ENTITY_PREFIXED(tx_write_data)
#define tx_create_hdlc_frame  _ENTITY_PREFIXED(tx_create_hdlc_frame)

#if defined (DTILIB)
#ifdef _SIMULATION_
#define sig_dti_ker_connection_opened_ind                     \
         _ENTITY_PREFIXED(sig_dti_ker_connection_opened_ind)
#define sig_dti_ker_connection_closed_ind                     \
         _ENTITY_PREFIXED(sig_dti_ker_connection_closed_ind)
#define sig_dti_drx_data_received_ind                         \
         _ENTITY_PREFIXED(sig_dti_drx_data_received_ind)
#define sig_dti_dtx_tx_buffer_full_ind                        \
         _ENTITY_PREFIXED(sig_dti_dtx_tx_buffer_full_ind)
#define sig_dti_dtx_tx_buffer_ready_ind                       \
         _ENTITY_PREFIXED(sig_dti_dtx_tx_buffer_ready_ind)

#ifdef DTI2
/*
 * for the driver-simulation dti channel, the c_id parameter
 * is already in use for transmission of control information
 * (which was formerly stored in the tui .. ;), unfortunately.
 * NOTE: not yet implemented!!!
 */
#define UART_TEST_C_ID_1            0
#define UART_TEST_C_ID_2            1



/*
 * these are __in no way__ real link_ids. Instead, the variable is used for
 * communication between the entity and the test environment, here. In
 * previous versions, the tui was used for this, but since DTI2 primitives do
 * not contain such a parameter any more, the dirty work has been passed on to
 * the link_id ..
 *
 * This is directly taken from
 */

#define LINK_READDATA_PORT_1   0 /* misused link_id for read_data call */
#define LINK_DISABLE_PORT_1    1 /* misused link_id for disable call */
#define LINK_ENABLE_PORT_1     2 /* misused link_id for enable call */
#define LINK_WRITEDATA_PORT_1  3 /* misused link_id for write_data call */

#define LINK_READDATA_PORT_2  10 /* misused link_id for read_data call */
#define LINK_DISABLE_PORT_2   11 /* misused link_id for disable call */
#define LINK_ENABLE_PORT_2    12 /* misused link_id for enable call */
#define LINK_WRITEDATA_PORT_2 13 /* misused link_id for write_data call */

#define LINK_UART_OUT_PORT_1   0 /* misused link_id of UART_OUT test interface */
#define LINK_UART_OUT_PORT_2  10 /* misused link_id of UART_OUT test interface */

#define LINK_PORT_THRESHOLD	   9 /* to be able to distinguish between port 1 and port2 */

#endif /* DTI2 */

#endif  /* _SIMULATION_ */

#endif  /* DTILIB */


/*
 * Communication handles (see also UART_PEI.C)
 */
#ifdef UART_PEI_C

       T_HANDLE hCommMMI          = VSI_ERROR;
       T_HANDLE hCommUART         = VSI_ERROR;
       T_HANDLE UART_handle;

/*
 * make the pei_create function unique
 */
#define pei_create              _ENTITY_PREFIXED(pei_create)

#else /* UART_PEI_C */

  EXTERN T_HANDLE hCommMMI;
  EXTERN T_HANDLE hCommUART;
  EXTERN T_HANDLE UART_handle;
  /*
   * functions for switching of entities/instances
   */
#ifndef DTILIB
  EXTERN UBYTE    pei_select_instances( UBYTE incoming_c_id );
#endif

#endif /* UART_PEI_C */

#ifdef DTILIB
  EXTERN DTI_HANDLE uart_hDTI;
#endif

#endif /* !UART_H */