drivers/char/ip2/i2pack.h - android_kernel_htc_msm8960 - Gitiles

 /*******************************************************************************
 *
 *   (c) 1998 by Computone Corporation
 *
 ********************************************************************************
 *
 *
 *   PACKAGE:     Linux tty Device Driver for IntelliPort II family of multiport
 *                serial I/O controllers.
 *
 *   DESCRIPTION: Definitions of the packets used to transfer data and commands
 *                Host <--> Board. Information provided here is only applicable
 *                when the standard loadware is active.
 *
 *******************************************************************************/
 #ifndef I2PACK_H
 #define I2PACK_H  1

 //-----------------------------------------------
 // Revision History:
 //
 // 10 October 1991   MAG First draft
 // 24 February 1992  MAG Additions for 1.4.x loadware
 // 11 March 1992     MAG New status packets
 //
 //-----------------------------------------------

 //------------------------------------------------------------------------------
 // Packet Formats:
 //
 // Information passes between the host and board through the FIFO in packets.
 // These have headers which indicate the type of packet. Because the fifo data
 // path may be 16-bits wide, the protocol is constrained such that each packet
 // is always padded to an even byte count. (The lower-level interface routines
 // -- i2ellis.c -- are designed to do this).
 //
 // The sender (be it host or board) must place some number of complete packets
 // in the fifo, then place a message in the mailbox that packets are available.
 // Placing such a message interrupts the "receiver" (be it board or host), who
 // reads the mailbox message and determines that there are incoming packets
 // ready. Since there are no partial packets, and the length of a packet is
 // given in the header, the remainder of the packet can be read without checking
 // for FIFO empty condition. The process is repeated, packet by packet, until
 // the incoming FIFO is empty. Then the receiver uses the outbound mailbox to
 // signal the board that it has read the data. Only then can the sender place
 // additional data in the fifo.
 //------------------------------------------------------------------------------
 //
 //------------------------------------------------
 // Definition of Packet Header Area
 //------------------------------------------------
 //
 // Caution: these only define header areas. In actual use the data runs off
 // beyond the end of these structures.
 //
 // Since these structures are based on sequences of bytes which go to the board,
 // there cannot be ANY padding between the elements.
 #pragma pack(1)

 //----------------------------
 // DATA PACKETS
 //----------------------------

 typedef struct _i2DataHeader
 {
 	unsigned char i2sChannel;  /* The channel number: 0-255 */

 	// -- Bitfields are allocated LSB first --

 	// For incoming data, indicates whether this is an ordinary packet or a
 	// special one (e.g., hot key hit).
 	unsigned i2sId : 2 __attribute__ ((__packed__));

 	// For tagging data packets. There are flush commands which flush only data
 	// packets bearing a particular tag. (used in implementing IntelliView and
 	// IntelliPrint). THE TAG VALUE 0xf is RESERVED and must not be used (it has
 	// meaning internally to the loadware).
 	unsigned i2sTag : 4;

 	// These two bits determine the type of packet sent/received.
 	unsigned i2sType : 2;

 	// The count of data to follow: does not include the possible additional
 	// padding byte. MAXIMUM COUNT: 4094. The top four bits must be 0.
 	unsigned short i2sCount;

 } i2DataHeader, *i2DataHeaderPtr;

 // Structure is immediately followed by the data, proper.

 //----------------------------
 // NON-DATA PACKETS
 //----------------------------

 typedef struct _i2CmdHeader
 {
 	unsigned char i2sChannel;	// The channel number: 0-255 (Except where noted
 								// - see below

 	// Number of bytes of commands, status or whatever to follow
 	unsigned i2sCount : 6;

 	// These two bits determine the type of packet sent/received.
 	unsigned i2sType : 2;

 } i2CmdHeader, *i2CmdHeaderPtr;

 // Structure is immediately followed by the applicable data.

 //---------------------------------------
 // Flow Control Packets (Outbound)
 //---------------------------------------

 // One type of outbound command packet is so important that the entire structure
 // is explicitly defined here. That is the flow-control packet. This is never
 // sent by user-level code (as would be the commands to raise/lower DTR, for
 // example). These are only sent by the library routines in response to reading
 // incoming data into the buffers.
 //
 // The parameters inside the command block are maintained in place, then the
 // block is sent at the appropriate time.

 typedef struct _flowIn
 {
 	i2CmdHeader    hd;      // Channel #, count, type (see above)
 	unsigned char  fcmd;    // The flow control command (37)
 	unsigned short asof;    // As of byte number "asof" (LSB first!) I have room
 							// for "room" bytes
 	unsigned short room;
 } flowIn, *flowInPtr;

 //----------------------------------------
 // (Incoming) Status Packets
 //----------------------------------------

 // Incoming packets which are non-data packets are status packets. In this case,
 // the channel number in the header is unimportant. What follows are one or more
 // sub-packets, the first word of which consists of the channel (first or low
 // byte) and the status indicator (second or high byte), followed by possibly
 // more data.

 #define STAT_CTS_UP     0  /* CTS raised  (no other bytes) */
 #define STAT_CTS_DN     1  /* CTS dropped (no other bytes) */
 #define STAT_DCD_UP     2  /* DCD raised  (no other bytes) */
 #define STAT_DCD_DN     3  /* DCD dropped (no other bytes) */
 #define STAT_DSR_UP     4  /* DSR raised  (no other bytes) */
 #define STAT_DSR_DN     5  /* DSR dropped (no other bytes) */
 #define STAT_RI_UP      6  /* RI  raised  (no other bytes) */
 #define STAT_RI_DN      7  /* RI  dropped (no other bytes) */
 #define STAT_BRK_DET    8  /* BRK detect  (no other bytes) */
 #define STAT_FLOW       9  /* Flow control(-- more: see below */
 #define STAT_BMARK      10 /* Bookmark    (no other bytes)
 							* Bookmark is sent as a response to
 							* a command 60: request for bookmark
 							*/
 #define STAT_STATUS     11 /* Special packet: see below */
 #define STAT_TXCNT      12 /* Special packet: see below */
 #define STAT_RXCNT      13 /* Special packet: see below */
 #define STAT_BOXIDS     14 /* Special packet: see below */
 #define STAT_HWFAIL     15 /* Special packet: see below */

 #define STAT_MOD_ERROR  0xc0
 #define STAT_MODEM      0xc0/* If status & STAT_MOD_ERROR:
 							 * == STAT_MODEM, then this is a modem
 							 * status packet, given in response to a
 							 * CMD_DSS_NOW command.
 							 * The low nibble has each data signal:
 							 */
 #define STAT_MOD_DCD    0x8
 #define STAT_MOD_RI     0x4
 #define STAT_MOD_DSR    0x2
 #define STAT_MOD_CTS    0x1

 #define STAT_ERROR      0x80/* If status & STAT_MOD_ERROR
 							 * == STAT_ERROR, then
 							 * sort of error on the channel.
 							 * The remaining seven bits indicate
 							 * what sort of error it is.
 							 */
 /* The low three bits indicate parity, framing, or overrun errors */

 #define STAT_E_PARITY   4     /* Parity error */
 #define STAT_E_FRAMING  2     /* Framing error */
 #define STAT_E_OVERRUN  1     /* (uxart) overrun error */

 //---------------------------------------
 // STAT_FLOW packets
 //---------------------------------------

 typedef struct _flowStat
 {
 	unsigned short asof;
 	unsigned short room;
 }flowStat, *flowStatPtr;

 // flowStat packets are received from the board to regulate the flow of outgoing
 // data. A local copy of this structure is also kept to track the amount of
 // credits used and credits remaining. "room" is the amount of space in the
 // board's buffers, "as of" having received a certain byte number. When sending
 // data to the fifo, you must calculate how much buffer space your packet will
 // use.  Add this to the current "asof" and subtract it from the current "room".
 //
 // The calculation for the board's buffer is given by CREDIT_USAGE, where size
 // is the un-rounded count of either data characters or command characters.
 // (Which is to say, the count rounded up, plus two).

 #define CREDIT_USAGE(size) (((size) + 3) & ~1)

 //---------------------------------------
 // STAT_STATUS packets
 //---------------------------------------

 typedef  struct   _debugStat
 {
 	unsigned char d_ccsr;
 	unsigned char d_txinh;
 	unsigned char d_stat1;
 	unsigned char d_stat2;
 } debugStat, *debugStatPtr;

 // debugStat packets are sent to the host in response to a CMD_GET_STATUS
 // command.  Each byte is bit-mapped as described below:

 #define D_CCSR_XON      2     /* Has received XON, ready to transmit */
 #define D_CCSR_XOFF     4     /* Has received XOFF, not transmitting */
 #define D_CCSR_TXENAB   8     /* Transmitter is enabled */
 #define D_CCSR_RXENAB   0x80  /* Receiver is enabled */

 #define D_TXINH_BREAK   1     /* We are sending a break */
 #define D_TXINH_EMPTY   2     /* No data to send */
 #define D_TXINH_SUSP    4     /* Output suspended via command 57 */
 #define D_TXINH_CMD     8     /* We are processing an in-line command */
 #define D_TXINH_LCD     0x10  /* LCD diagnostics are running */
 #define D_TXINH_PAUSE   0x20  /* We are processing a PAUSE command */
 #define D_TXINH_DCD     0x40  /* DCD is low, preventing transmission */
 #define D_TXINH_DSR     0x80  /* DSR is low, preventing transmission */

 #define D_STAT1_TXEN    1     /* Transmit INTERRUPTS enabled */
 #define D_STAT1_RXEN    2     /* Receiver INTERRUPTS enabled */
 #define D_STAT1_MDEN    4     /* Modem (data set sigs) interrupts enabled */
 #define D_STAT1_RLM     8     /* Remote loopback mode selected */
 #define D_STAT1_LLM     0x10  /* Local internal loopback mode selected */
 #define D_STAT1_CTS     0x20  /* CTS is low, preventing transmission */
 #define D_STAT1_DTR     0x40  /* DTR is low, to stop remote transmission */
 #define D_STAT1_RTS     0x80  /* RTS is low, to stop remote transmission */

 #define D_STAT2_TXMT    1     /* Transmit buffers are all empty */
 #define D_STAT2_RXMT    2     /* Receive buffers are all empty */
 #define D_STAT2_RXINH   4     /* Loadware has tried to inhibit remote
 							   * transmission:  dropped DTR, sent XOFF,
 							   * whatever...
 							   */
 #define D_STAT2_RXFLO   8     /* Loadware can send no more data to host
 							   * until it receives a flow-control packet
 							   */
 //-----------------------------------------
 // STAT_TXCNT and STAT_RXCNT packets
 //----------------------------------------

 typedef  struct   _cntStat
 {
 	unsigned short cs_time;    // (Assumes host is little-endian!)
 	unsigned short cs_count;
 } cntStat, *cntStatPtr;

 // These packets are sent in response to a CMD_GET_RXCNT or a CMD_GET_TXCNT
 // bypass command. cs_time is a running 1 Millisecond counter which acts as a
 // time stamp. cs_count is a running counter of data sent or received from the
 // uxarts. (Not including data added by the chip itself, as with CRLF
 // processing).
 //------------------------------------------
 // STAT_HWFAIL packets
 //------------------------------------------

 typedef struct _failStat
 {
 	unsigned char fs_written;
 	unsigned char fs_read;
 	unsigned short fs_address;
 } failStat, *failStatPtr;

 // This packet is sent whenever the on-board diagnostic process detects an
 // error. At startup, this process is dormant. The host can wake it up by
 // issuing the bypass command CMD_HW_TEST. The process runs at low priority and
 // performs continuous hardware verification; writing data to certain on-board
 // registers, reading it back, and comparing. If it detects an error, this
 // packet is sent to the host, and the process goes dormant again until the host
 // sends another CMD_HW_TEST. It then continues with the next register to be
 // tested.

 //------------------------------------------------------------------------------
 // Macros to deal with the headers more easily! Note that these are defined so
 // they may be used as "left" as well as "right" expressions.
 //------------------------------------------------------------------------------

 // Given a pointer to the packet, reference the channel number
 //
 #define CHANNEL_OF(pP)  ((i2DataHeaderPtr)(pP))->i2sChannel

 // Given a pointer to the packet, reference the Packet type
 //
 #define PTYPE_OF(pP) ((i2DataHeaderPtr)(pP))->i2sType

 // The possible types of packets
 //
 #define PTYPE_DATA   0  /* Host <--> Board */
 #define PTYPE_BYPASS 1  /* Host ---> Board */
 #define PTYPE_INLINE 2  /* Host ---> Board */
 #define PTYPE_STATUS 2  /* Host <--- Board */

 // Given a pointer to a Data packet, reference the Tag
 //
 #define TAG_OF(pP) ((i2DataHeaderPtr)(pP))->i2sTag

 // Given a pointer to a Data packet, reference the data i.d.
 //
 #define ID_OF(pP)  ((i2DataHeaderPtr)(pP))->i2sId

 // The possible types of ID's
 //
 #define ID_ORDINARY_DATA   0
 #define ID_HOT_KEY         1

 // Given a pointer to a Data packet, reference the count
 //
 #define DATA_COUNT_OF(pP) ((i2DataHeaderPtr)(pP))->i2sCount

 // Given a pointer to a Data packet, reference the beginning of data
 //
 #define DATA_OF(pP) &((unsigned char *)(pP))[4] // 4 = size of header

 // Given a pointer to a Non-Data packet, reference the count
 //
 #define CMD_COUNT_OF(pP) ((i2CmdHeaderPtr)(pP))->i2sCount

 #define MAX_CMD_PACK_SIZE  62 // Maximum size of such a count

 // Given a pointer to a Non-Data packet, reference the beginning of data
 //
 #define CMD_OF(pP) &((unsigned char *)(pP))[2]  // 2 = size of header

 //--------------------------------
 // MailBox Bits:
 //--------------------------------

 //--------------------------
 // Outgoing (host to board)
 //--------------------------
 //
 #define MB_OUT_STUFFED     0x80  // Host has placed output in fifo
 #define MB_IN_STRIPPED     0x40  // Host has read in all input from fifo

 //--------------------------
 // Incoming (board to host)
 //--------------------------
 //
 #define MB_IN_STUFFED      0x80  // Board has placed input in fifo
 #define MB_OUT_STRIPPED    0x40  // Board has read all output from fifo
 #define MB_FATAL_ERROR     0x20  // Board has encountered a fatal error

 #pragma pack()                  // Reset padding to command-line default

 #endif      // I2PACK_H
	/*******************************************************************************
	*
	* (c) 1998 by Computone Corporation
	*
	********************************************************************************
	*
	*
	* PACKAGE: Linux tty Device Driver for IntelliPort II family of multiport
	* serial I/O controllers.
	*
	* DESCRIPTION: Definitions of the packets used to transfer data and commands
	* Host <--> Board. Information provided here is only applicable
	* when the standard loadware is active.
	*
	*******************************************************************************/
	#ifndef I2PACK_H
	#define I2PACK_H 1

	//-----------------------------------------------
	// Revision History:
	//
	// 10 October 1991 MAG First draft
	// 24 February 1992 MAG Additions for 1.4.x loadware
	// 11 March 1992 MAG New status packets
	//
	//-----------------------------------------------

	//------------------------------------------------------------------------------
	// Packet Formats:
	//
	// Information passes between the host and board through the FIFO in packets.
	// These have headers which indicate the type of packet. Because the fifo data
	// path may be 16-bits wide, the protocol is constrained such that each packet
	// is always padded to an even byte count. (The lower-level interface routines
	// -- i2ellis.c -- are designed to do this).
	//
	// The sender (be it host or board) must place some number of complete packets
	// in the fifo, then place a message in the mailbox that packets are available.
	// Placing such a message interrupts the "receiver" (be it board or host), who
	// reads the mailbox message and determines that there are incoming packets
	// ready. Since there are no partial packets, and the length of a packet is
	// given in the header, the remainder of the packet can be read without checking
	// for FIFO empty condition. The process is repeated, packet by packet, until
	// the incoming FIFO is empty. Then the receiver uses the outbound mailbox to
	// signal the board that it has read the data. Only then can the sender place
	// additional data in the fifo.
	//------------------------------------------------------------------------------
	//
	//------------------------------------------------
	// Definition of Packet Header Area
	//------------------------------------------------
	//
	// Caution: these only define header areas. In actual use the data runs off
	// beyond the end of these structures.
	//
	// Since these structures are based on sequences of bytes which go to the board,
	// there cannot be ANY padding between the elements.
	#pragma pack(1)

	//----------------------------
	// DATA PACKETS
	//----------------------------

	typedef struct _i2DataHeader
	{
	unsigned char i2sChannel; /* The channel number: 0-255 */

	// -- Bitfields are allocated LSB first --

	// For incoming data, indicates whether this is an ordinary packet or a
	// special one (e.g., hot key hit).
	unsigned i2sId : 2 __attribute__ ((__packed__));

	// For tagging data packets. There are flush commands which flush only data
	// packets bearing a particular tag. (used in implementing IntelliView and
	// IntelliPrint). THE TAG VALUE 0xf is RESERVED and must not be used (it has
	// meaning internally to the loadware).
	unsigned i2sTag : 4;

	// These two bits determine the type of packet sent/received.
	unsigned i2sType : 2;

	// The count of data to follow: does not include the possible additional
	// padding byte. MAXIMUM COUNT: 4094. The top four bits must be 0.
	unsigned short i2sCount;

	} i2DataHeader, *i2DataHeaderPtr;

	// Structure is immediately followed by the data, proper.

	//----------------------------
	// NON-DATA PACKETS
	//----------------------------

	typedef struct _i2CmdHeader
	{
	unsigned char i2sChannel; // The channel number: 0-255 (Except where noted
	// - see below

	// Number of bytes of commands, status or whatever to follow
	unsigned i2sCount : 6;

	// These two bits determine the type of packet sent/received.
	unsigned i2sType : 2;

	} i2CmdHeader, *i2CmdHeaderPtr;

	// Structure is immediately followed by the applicable data.

	//---------------------------------------
	// Flow Control Packets (Outbound)
	//---------------------------------------

	// One type of outbound command packet is so important that the entire structure
	// is explicitly defined here. That is the flow-control packet. This is never
	// sent by user-level code (as would be the commands to raise/lower DTR, for
	// example). These are only sent by the library routines in response to reading
	// incoming data into the buffers.
	//
	// The parameters inside the command block are maintained in place, then the
	// block is sent at the appropriate time.

	typedef struct _flowIn
	{
	i2CmdHeader hd; // Channel #, count, type (see above)
	unsigned char fcmd; // The flow control command (37)
	unsigned short asof; // As of byte number "asof" (LSB first!) I have room
	// for "room" bytes
	unsigned short room;
	} flowIn, *flowInPtr;

	//----------------------------------------
	// (Incoming) Status Packets
	//----------------------------------------

	// Incoming packets which are non-data packets are status packets. In this case,
	// the channel number in the header is unimportant. What follows are one or more
	// sub-packets, the first word of which consists of the channel (first or low
	// byte) and the status indicator (second or high byte), followed by possibly
	// more data.

	#define STAT_CTS_UP 0 /* CTS raised (no other bytes) */
	#define STAT_CTS_DN 1 /* CTS dropped (no other bytes) */
	#define STAT_DCD_UP 2 /* DCD raised (no other bytes) */
	#define STAT_DCD_DN 3 /* DCD dropped (no other bytes) */
	#define STAT_DSR_UP 4 /* DSR raised (no other bytes) */
	#define STAT_DSR_DN 5 /* DSR dropped (no other bytes) */
	#define STAT_RI_UP 6 /* RI raised (no other bytes) */
	#define STAT_RI_DN 7 /* RI dropped (no other bytes) */
	#define STAT_BRK_DET 8 /* BRK detect (no other bytes) */
	#define STAT_FLOW 9 /* Flow control(-- more: see below */
	#define STAT_BMARK 10 /* Bookmark (no other bytes)
	* Bookmark is sent as a response to
	* a command 60: request for bookmark
	*/
	#define STAT_STATUS 11 /* Special packet: see below */
	#define STAT_TXCNT 12 /* Special packet: see below */
	#define STAT_RXCNT 13 /* Special packet: see below */
	#define STAT_BOXIDS 14 /* Special packet: see below */
	#define STAT_HWFAIL 15 /* Special packet: see below */

	#define STAT_MOD_ERROR 0xc0
	#define STAT_MODEM 0xc0/* If status & STAT_MOD_ERROR:
	* == STAT_MODEM, then this is a modem
	* status packet, given in response to a
	* CMD_DSS_NOW command.
	* The low nibble has each data signal:
	*/
	#define STAT_MOD_DCD 0x8
	#define STAT_MOD_RI 0x4
	#define STAT_MOD_DSR 0x2
	#define STAT_MOD_CTS 0x1

	#define STAT_ERROR 0x80/* If status & STAT_MOD_ERROR
	* == STAT_ERROR, then
	* sort of error on the channel.
	* The remaining seven bits indicate
	* what sort of error it is.
	*/
	/* The low three bits indicate parity, framing, or overrun errors */

	#define STAT_E_PARITY 4 /* Parity error */
	#define STAT_E_FRAMING 2 /* Framing error */
	#define STAT_E_OVERRUN 1 /* (uxart) overrun error */

	//---------------------------------------
	// STAT_FLOW packets
	//---------------------------------------

	typedef struct _flowStat
	{
	unsigned short asof;
	unsigned short room;
	}flowStat, *flowStatPtr;

	// flowStat packets are received from the board to regulate the flow of outgoing
	// data. A local copy of this structure is also kept to track the amount of
	// credits used and credits remaining. "room" is the amount of space in the
	// board's buffers, "as of" having received a certain byte number. When sending
	// data to the fifo, you must calculate how much buffer space your packet will
	// use. Add this to the current "asof" and subtract it from the current "room".
	//
	// The calculation for the board's buffer is given by CREDIT_USAGE, where size
	// is the un-rounded count of either data characters or command characters.
	// (Which is to say, the count rounded up, plus two).

	#define CREDIT_USAGE(size) (((size) + 3) & ~1)

	//---------------------------------------
	// STAT_STATUS packets
	//---------------------------------------

	typedef struct _debugStat
	{
	unsigned char d_ccsr;
	unsigned char d_txinh;
	unsigned char d_stat1;
	unsigned char d_stat2;
	} debugStat, *debugStatPtr;

	// debugStat packets are sent to the host in response to a CMD_GET_STATUS
	// command. Each byte is bit-mapped as described below:

	#define D_CCSR_XON 2 /* Has received XON, ready to transmit */
	#define D_CCSR_XOFF 4 /* Has received XOFF, not transmitting */
	#define D_CCSR_TXENAB 8 /* Transmitter is enabled */
	#define D_CCSR_RXENAB 0x80 /* Receiver is enabled */

	#define D_TXINH_BREAK 1 /* We are sending a break */
	#define D_TXINH_EMPTY 2 /* No data to send */
	#define D_TXINH_SUSP 4 /* Output suspended via command 57 */
	#define D_TXINH_CMD 8 /* We are processing an in-line command */
	#define D_TXINH_LCD 0x10 /* LCD diagnostics are running */
	#define D_TXINH_PAUSE 0x20 /* We are processing a PAUSE command */
	#define D_TXINH_DCD 0x40 /* DCD is low, preventing transmission */
	#define D_TXINH_DSR 0x80 /* DSR is low, preventing transmission */

	#define D_STAT1_TXEN 1 /* Transmit INTERRUPTS enabled */
	#define D_STAT1_RXEN 2 /* Receiver INTERRUPTS enabled */
	#define D_STAT1_MDEN 4 /* Modem (data set sigs) interrupts enabled */
	#define D_STAT1_RLM 8 /* Remote loopback mode selected */
	#define D_STAT1_LLM 0x10 /* Local internal loopback mode selected */
	#define D_STAT1_CTS 0x20 /* CTS is low, preventing transmission */
	#define D_STAT1_DTR 0x40 /* DTR is low, to stop remote transmission */
	#define D_STAT1_RTS 0x80 /* RTS is low, to stop remote transmission */

	#define D_STAT2_TXMT 1 /* Transmit buffers are all empty */
	#define D_STAT2_RXMT 2 /* Receive buffers are all empty */
	#define D_STAT2_RXINH 4 /* Loadware has tried to inhibit remote
	* transmission: dropped DTR, sent XOFF,
	* whatever...
	*/
	#define D_STAT2_RXFLO 8 /* Loadware can send no more data to host
	* until it receives a flow-control packet
	*/
	//-----------------------------------------
	// STAT_TXCNT and STAT_RXCNT packets
	//----------------------------------------

	typedef struct _cntStat
	{
	unsigned short cs_time; // (Assumes host is little-endian!)
	unsigned short cs_count;
	} cntStat, *cntStatPtr;

	// These packets are sent in response to a CMD_GET_RXCNT or a CMD_GET_TXCNT
	// bypass command. cs_time is a running 1 Millisecond counter which acts as a
	// time stamp. cs_count is a running counter of data sent or received from the
	// uxarts. (Not including data added by the chip itself, as with CRLF
	// processing).
	//------------------------------------------
	// STAT_HWFAIL packets
	//------------------------------------------

	typedef struct _failStat
	{
	unsigned char fs_written;
	unsigned char fs_read;
	unsigned short fs_address;
	} failStat, *failStatPtr;

	// This packet is sent whenever the on-board diagnostic process detects an
	// error. At startup, this process is dormant. The host can wake it up by
	// issuing the bypass command CMD_HW_TEST. The process runs at low priority and
	// performs continuous hardware verification; writing data to certain on-board
	// registers, reading it back, and comparing. If it detects an error, this
	// packet is sent to the host, and the process goes dormant again until the host
	// sends another CMD_HW_TEST. It then continues with the next register to be
	// tested.

	//------------------------------------------------------------------------------
	// Macros to deal with the headers more easily! Note that these are defined so
	// they may be used as "left" as well as "right" expressions.
	//------------------------------------------------------------------------------

	// Given a pointer to the packet, reference the channel number
	//
	#define CHANNEL_OF(pP) ((i2DataHeaderPtr)(pP))->i2sChannel

	// Given a pointer to the packet, reference the Packet type
	//
	#define PTYPE_OF(pP) ((i2DataHeaderPtr)(pP))->i2sType

	// The possible types of packets
	//
	#define PTYPE_DATA 0 /* Host <--> Board */
	#define PTYPE_BYPASS 1 /* Host ---> Board */
	#define PTYPE_INLINE 2 /* Host ---> Board */
	#define PTYPE_STATUS 2 /* Host <--- Board */

	// Given a pointer to a Data packet, reference the Tag
	//
	#define TAG_OF(pP) ((i2DataHeaderPtr)(pP))->i2sTag

	// Given a pointer to a Data packet, reference the data i.d.
	//
	#define ID_OF(pP) ((i2DataHeaderPtr)(pP))->i2sId

	// The possible types of ID's
	//
	#define ID_ORDINARY_DATA 0
	#define ID_HOT_KEY 1

	// Given a pointer to a Data packet, reference the count
	//
	#define DATA_COUNT_OF(pP) ((i2DataHeaderPtr)(pP))->i2sCount

	// Given a pointer to a Data packet, reference the beginning of data
	//
	#define DATA_OF(pP) &((unsigned char *)(pP))[4] // 4 = size of header

	// Given a pointer to a Non-Data packet, reference the count
	//
	#define CMD_COUNT_OF(pP) ((i2CmdHeaderPtr)(pP))->i2sCount

	#define MAX_CMD_PACK_SIZE 62 // Maximum size of such a count

	// Given a pointer to a Non-Data packet, reference the beginning of data
	//
	#define CMD_OF(pP) &((unsigned char *)(pP))[2] // 2 = size of header

	//--------------------------------
	// MailBox Bits:
	//--------------------------------

	//--------------------------
	// Outgoing (host to board)
	//--------------------------
	//
	#define MB_OUT_STUFFED 0x80 // Host has placed output in fifo
	#define MB_IN_STRIPPED 0x40 // Host has read in all input from fifo

	//--------------------------
	// Incoming (board to host)
	//--------------------------
	//
	#define MB_IN_STUFFED 0x80 // Board has placed input in fifo
	#define MB_OUT_STRIPPED 0x40 // Board has read all output from fifo
	#define MB_FATAL_ERROR 0x20 // Board has encountered a fatal error

	#pragma pack() // Reset padding to command-line default

	#endif // I2PACK_H